System, method, and device for providing application service

ABSTRACT

Embodiments of the present invention provide a system, method, and device for providing an application service, including: a first access network device is connected to a first application server through a first interface, and the first application server is configured to process an application request received from the first access network device, where the application request is received by the first access network device from a user equipment. According to the embodiments of the present invention, an application server is deployed on a radio access network side, and the application server is capable of adjusting network sending scheduling according to a network environment, which can guarantee sending of service content and improve user experience.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.14/755,857, filed on Jun. 30, 2015, which is a continuation applicationof International Application No. PCT/CN2012/088127, filed on Dec. 31,2012. All of the aforementioned applications are hereby incorporated byreference in their entireties.

TECHNICAL FIELD

Embodiments of the present invention relate to the field ofcommunications technologies, and in particular, to a system, method, anddevice for providing an application service.

BACKGROUND

As smart devices are quickly becoming a popular choice, mobile Internetis experiencing growth, and wireless network technologies are findingincreased use, users express preference to have wired-like serviceexperience, namely, smooth, uninterrupted access at short delay.

In the prior art, a content delivery network (Content Delivery Network,CDN) is always deployed behind a core network. For example, anapplication server (App Server) is deployed between a core network andthe Internet (Internet). The CDN cannot perceive a change of a wirelessenvironment, and consequently cannot adapt a service provided for a userequipment to the varying wireless environment, which ultimately degradesuser experience. For example, a high-definition bandwidth-consumingvideo is provided in low-bandwidth environment, and consequently videoplayback is not smooth.

SUMMARY

Embodiments of the present invention disclose a system, method, anddevice for providing an application service. According to the method ofthe present invention, application and content services are deployed ona radio access network side, and the radio access network side mayprovide an application service for a user.

According to a first aspect, the present invention provides a system forproviding an application service, where the system includes:

a first access network device and a first application server, where: thefirst access network device is a base station or a base stationcontroller;

a first interface exists between the first access network device and thefirst application server;

the first application server is configured to receive, through the firstinterface, an application request sent by the first access networkdevice, where the application request is received by the first accessnetwork device from a user equipment; and

the first application server is further configured to determine whetherto process an application service corresponding to the applicationrequest.

With reference to the first aspect, in a first possible implementation,the system further includes a core network device; and

a second interface exists between the first application server and thecore network device.

With reference to the first possible implementation of the first aspect,in a second possible implementation, the system further includes asecond access network device; and

a first interface exists between the first application server and thesecond access network device.

With reference to the first aspect or the first possible implementationof the first aspect, in a third possible implementation, the systemfurther includes a core network device; and

a third interface exists between the first access network device and thecore network device.

With reference to the third possible implementation of the first aspect,in a fourth possible implementation,

the first access network device is further configured to determine,according to an offload policy, a target device to which the applicationrequest is to be sent, where the target device is the first applicationserver or the core network device.

With reference to the first aspect, in a fifth possible implementation,the system further includes a second application server and a corenetwork device;

a fourth interface exists between the first application server and thesecond application server; and

a fifth interface exists between the second application server and thecore network device.

With reference to the fifth possible implementation, in a sixth possibleimplementation, the system further includes a second access networkdevice and a third application server; and

a sixth interface exists between the first application server and thethird application server, a first interface exists between the thirdapplication server and the second access network device, and a fourthinterface exists between the third application server and the secondapplication server.

With reference to any one of the first possible implementation of thefirst aspect to the sixth possible implementation of the first aspect,in a seventh possible implementation, in a case in which the firstapplication server determines to process the application servicecorresponding to the application request,

the first application server is specifically configured to determine anapplication response according to the application request, where theapplication response is corresponding to the application service.

With reference to any one of the first possible implementation of thefirst aspect to the fourth possible implementation of the first aspect,in an eighth possible implementation, in a case in which the firstapplication server determines not to process the application servicecorresponding to the application request,

the first application server is further configured to send theapplication request to the core network device;

the core network device is configured to send the application request toa service provider, so that the service provider determines anapplication response according to the application request, where theapplication response is corresponding to the application service; and

the core network device is further configured to receive the applicationresponse sent by the service provider, and send the application responseto the first application server.

With reference to the fifth possible implementation of the first aspector the sixth possible implementation of the first aspect, in a ninthpossible implementation, in a case in which the first application serverdetermines not to process the application service corresponding to theapplication request,

the first application server is further configured to send theapplication request to the second application server;

the second application server is configured to determine whether toprocess the application service corresponding to the applicationrequest;

in a case in which the second application server determines to processthe application service corresponding to the application request, thesecond application server is further configured to determine anapplication response according to the application request, where theapplication response is corresponding to the application service;

in a case in which the second application server determines not toprocess the application service corresponding to the applicationrequest, the second application server is further configured to send theapplication request to the core network device, and the core networkdevice is configured to send the application request to a serviceprovider, so that the service provider determines an applicationresponse according to the application request, where the applicationresponse is corresponding to the application service, and the secondapplication server is further configured to receive the applicationresponse sent by the service provider; and

the second application server is further configured to send theapplication response to the first application server in a case in whichthe application response is determined or the application response isreceived.

With reference to the sixth possible implementation of the first aspect,in a tenth possible implementation, in a case in which the firstapplication server determines not to process the application servicecorresponding to the application request,

the first application server is further configured to send theapplication request to the third application server;

the third application server is configured to determine whether toprocess the application service corresponding to the applicationrequest;

in a case in which the third application server determines to processthe application service corresponding to the application request, thethird application server is further configured to determine anapplication response according to the application request, where theapplication response is corresponding to the application service;

in a case in which the third application server determines not toprocess the application service corresponding to the applicationrequest, the third application server is further configured to send theapplication request to the core network device, and the core networkdevice is configured to send the application request to a serviceprovider, so that the service provider determines an applicationresponse according to the application request, where the applicationresponse is corresponding to the application service, and the thirdapplication server is further configured to receive the applicationresponse sent by the service provider; and

the third application server is further configured to send theapplication response to the first application server in a case in whichthe application response is determined or the application response isreceived.

With reference to any one of the seventh possible implementation of thefirst aspect to the tenth possible implementation of the first aspect,in an eleventh possible implementation,

the first application server is further configured to determine aguarantee message according to the application response and a networkenvironment, where the guarantee message is used for instructing thefirst access network device to guarantee sending of the applicationresponse;

the first application server is further configured to send theapplication response and the guarantee message to the first accessnetwork device;

the first access network device sends the application response to theuser equipment according to the guarantee message; and

a network state is restored in a case in which the first applicationserver and the first access network device complete sending of theapplication response.

With reference to any one of the first possible implementation of thefirst aspect to the eleventh possible implementation of the firstaspect, in a twelfth possible implementation, in a case in which thefirst application server is connected to one or more devices among thecore network device, the second application server, and the thirdapplication server,

the first application server is further configured to perform GeneralPacket Radio Service GPRS Tunneling Protocol-User plane GTP-Udecapsulation on received information to process the receivedinformation, where the received information includes the applicationrequest; and

the first application server is further configured to perform GTP-Uencapsulation on sent information to transmit the sent information in atransmission medium, where the sent information includes one or morepieces of the following information: the application request, theapplication response, and the guarantee message.

With reference to the first aspect or any one of the foregoing possibleimplementations, in a thirteenth possible implementation, the firstapplication server is further configured to perform charging orinterception.

According to a second aspect, the present invention provides anapplication server, where the application server is a first applicationserver in a system for providing an application service and includes:

a transceiver and a processor, where:

the transceiver is connected to one or more first access network devicesin the system through a first interface;

the transceiver is configured to receive an application request sent bythe one or more first access network devices, where the applicationrequest is received by the one or more first access network devices froma user equipment;

the processor is configured to determine whether to process anapplication service corresponding to the application request;

the processor is further configured to determine an application responseaccording to the application request in a case in which the processordetermines to process the application service corresponding to theapplication request, where the application response is corresponding tothe application service; and

the transceiver is further configured to send the application responsedetermined by the processor to the one or more access network devices,so that the one or more access network devices send the applicationresponse to the user equipment.

With reference to the second aspect, in a first possible implementation,

the transceiver is further connected to a core network device in thesystem through a second interface;

in a case in which the processor determines not to process theapplication request,

the transceiver is further configured to send the application request tothe core network device, so that the core network device sends theapplication request to a service provider, so that the service providerdetermines an application response according to the application request,where the application response is corresponding to the applicationservice;

the transceiver is further configured to receive the applicationresponse sent by the core network device, where the application responseis received by the core network device from the service provider; and

the transceiver is further configured to send the application responseto the one or more access network devices, so that the one or moreaccess network devices send the application response to the userequipment.

With reference to the second aspect, in a second possibleimplementation,

the transceiver is further connected to a second application server inthe system through a fourth interface;

in a case in which the processor determines not to process theapplication request,

the transceiver is further configured to send the application request tothe second application server, so that the second application serveracquires the application response;

the transceiver is further configured to receive the applicationresponse sent by the second application server; and

the transceiver is further configured to send the application responseto the one or more access network devices, so that the one or moreaccess network devices send the application response to the userequipment.

With reference to the second aspect, in a third possible implementation,

the transceiver is further connected to a third application server inthe system through a sixth interface;

in a case in which the processor determines not to process theapplication request,

the transceiver is further configured to send the application request tothe second application server, so that the second application serveracquires the application response;

the transceiver is further configured to receive the applicationresponse sent by the second application server; and

the transceiver is further configured to send the application responseto the one or more access network devices, so that the one or moreaccess network devices send the application response to the userequipment.

With reference to the third possible implementation of the secondaspect, in a fourth possible implementation,

the transceiver is further configured to receive an application requestsent by the third application server;

the processor is further configured to determine whether to process theapplication request sent by the third application server;

the processor is further configured to: in a case in which the processordetermines to process the application request sent by the thirdapplication server, determine, according to the application request sentby the third application server, an application response correspondingto the application request sent by the third application server;

the transceiver is further configured to send, to the third applicationserver, the application response corresponding to the applicationrequest sent by the third application server; and

the transceiver is further configured to send a negative notification tothe third application server in a case in which the processor determinesnot to process the application request sent by the third applicationserver, wherein the negative notification is used wherein the negativenotification is used for notifying the third application server that theprocessor determines not to process the application request sent by thethird application server.

With reference to the second aspect or any one of the foregoing possibleimplementations of the second aspect, in a fifth possibleimplementation,

the processor is further configured to determine guarantee informationaccording to the application response and a network environment;

the transceiver is further configured to send the guarantee informationto the one or more first access network devices, where the guaranteemessage is used for instructing the first access network device toguarantee sending of the application response; and

the processor is further configured to determine to restore a networkstate in a case in which the transceiver completes sending of theguarantee message and the application response.

With reference to the second aspect, in a sixth possible implementation,in a case in which the transceiver is connected to one access networkdevice in the system through the first interface, the one access networkdevice is connected to a core network device in the system through athird interface, and the processor determines not to process theapplication request,

the transceiver is further configured to send a negative notification tothe at least one first access network device, for notifying the firstaccess network device that the application server is not capable ofprocessing the application service corresponding to the applicationrequest.

With reference to the second aspect or any one of the first possibleimplementation to the fifth possible implementation of the secondaspect, in a seventh possible implementation,

the processor is further configured to perform General Packet RadioService GPRS Tunneling Protocol-User plane GTP-U decapsulation oninformation received by the transceiver, and perform GTP-U encapsulationon information sent by the transceiver.

According to a third aspect, the present invention provides anapplication server, where the application server is each secondapplication server in a system for providing an application service andincludes:

a transceiver and a processor, where:

the transceiver is connected to a first application server in the systemthrough a fourth interface, and the transceiver is connected to a corenetwork in the system through a fifth interface;

the transceiver is configured to receive an application request sent bythe first application server;

the processor is configured to determine whether to process anapplication service corresponding to the application request;

the processor is further configured to determine an application responseaccording to the application request in a case in which the processordetermines to process the application request, where the applicationresponse is corresponding to the application service; and

the transceiver is further configured to send the application responseto the first application server.

With reference to the third aspect, in a first possible implementation,in a case in which the processor determines not to process theapplication service corresponding to the application request,

the transceiver is further configured to send the application request tothe core network device, so that the core network device sends theapplication request to a service provider, so that the service providerdetermines an application response according to the application request,where the application response is corresponding to the applicationservice;

the transceiver is further configured to receive the applicationresponse sent by the core network device, where the application responseis received by the core network device from the service provider; and

the transceiver is further configured to send the application responseto the first application server.

According to a fourth aspect, the present invention provides an accessnetwork device, where the access network device is a first accessnetwork device in a system for providing an application service andincludes:

a receiver and a transmitter, where:

the receiver is connected to a first application server in the systemthrough a first interface, and the transmitter is connected to the firstapplication server in the system through the first interface;

the receiver is configured to receive an application request sent by auser equipment; and

the transmitter is configured to send the application request to thefirst application server.

With reference to the fourth aspect, in a first possible implementation,the receiver is further connected to a core network device in the systemthrough a third interface, and the transmitter is further connected tothe core network device through the third interface;

the transmitter is specifically configured to send the applicationrequest to the first application server according to an offload policy;and

the transmitter is further configured to send the application request tothe core network device according to the offload policy.

With reference to the first possible implementation, in a secondpossible implementation,

the receiver is further configured to receive a negative notificationsent by the first application server, where the negative notification isused for notifying the first access network device that the applicationserver is not capable of processing an application service correspondingto the application request; and

the transmitter is further configured to send the application request tothe core network device in a case in which the receiver receives thenegative notification.

With reference to the fourth aspect or the first possible implementationof the fourth aspect, in a third possible implementation,

the receiver is further configured to receive an application responseand guarantee information that are sent by the first application server;and

the transmitter is further configured to send the application responseto the user equipment according to the guarantee information.

With reference to the first possible implementation or the secondpossible implementation of the fourth aspect, in a fourth possibleimplementation,

the receiver is further configured to receive an application responsesent by the core network device; and

the transmitter is further configured to send the application responseto the user equipment.

According to a fifth aspect, the present invention provides a corenetwork device, where the core network device is a core network devicein a system for providing an application service and includes:

a receiver and a transmitter, where:

the receiver is configured to receive an application request, where theapplication request is corresponding to an application service;

the transmitter is configured to send the application request to aservice provider, so that the service provider determines an applicationresponse according to the application request, where the applicationresponse is corresponding to the application service; and

the receiver is further configured to receive the application responsesent by the service provider.

With reference to the fifth aspect, in a first possible implementation,

in a case in which the receiver is connected, through a secondinterface, to a first application server in the system for providing anapplication service and the transmitter is connected to the firstapplication server through the second interface, the receiver isspecifically configured to receive the application request sent by thefirst application server, and the transmitter is further configured tosend the application response to the first application server;

in a case in which the receiver is connected, through a fifth interface,to a second application server in the system for providing anapplication service and the transmitter is connected to the secondapplication server through the fifth interface, the receiver isspecifically configured to receive the application request sent by thesecond application server, and the transmitter is further configured tosend the application response to the second application server; and

in a case in which the receiver is connected, through a third interface,to a first access network device in the system for providing anapplication service, and the transmitter is connected to the firstaccess network device through the third interface, the receiver isspecifically configured to receive the application request sent by thefirst access network device, and the transmitter is further configuredto send the application response to the first access network device.

According to a sixth aspect, the present invention provides anapplication server, where the application server is a first applicationserver in a system for providing an application service and includes:

a transceiver and a processor, where:

the transceiver is configured to receive an application request sent bya first access network device, where the application request is receivedby the first access network device from a user equipment, and theapplication request is corresponding to an application service;

the processor is configured to acquire an application response, wherethe application response is corresponding to the application service;and

the processor is further configured to control a charging orinterception process.

With reference to the sixth aspect, in a first possible implementation,that the processor is configured to control a charging or interceptionprocess includes that:

the processor is specifically configured to send a copy of theapplication request to a core network device in the system through thetransceiver, to instruct the core network device to start performingcharging or interception; and

the processor is specifically configured to send a copy of theapplication response to the core network device through the transceiver,to instruct the core network device to perform charging or interception.

With reference to the sixth aspect, in a second possible implementation,

the transceiver is further configured to receive a charging orinterception notification sent by the core network device, where thecharging or interception notification is used for indicating charging orinterception.

With reference to the second possible implementation of the sixthaspect, in a third possible implementation, that the processor isconfigured to control a charging or interception process includes that:

the processor is configured to determine, according to the charging orinterception notification, whether to perform charging or interception;

the processor is further configured to: in a case in which the processordetermines to perform interception, skip processing the applicationservice corresponding to the application request, and send theapplication request to the core network device in the system through thetransceiver, to instruct the core network to start charging orinterception; and

the processor is further configured to: in a case in which the processordetermines not to perform interception, process the application servicecorresponding to the application request, perform charging, and sendcharging information to the core network device through the transceiver,for notifying the core network device of a charging result.

With reference to the second possible implementation of the sixthaspect, in a fourth possible implementation, that the processor isconfigured to control a charging or interception process includes that:

the processor is configured to perform charging, and send charginginformation to the core network device through the transceiver, fornotifying the core network device of a charging result;

the processor is further configured to determine, according to thecharging or interception notification, whether to perform charging orinterception; and

the processor is further configured to: in a case in which the processordetermines to perform interception, send a copy of the applicationrequest and a copy of the application response to the core networkdevice through the transceiver, to instruct the core network device toperform interception.

According to a seventh aspect, the present invention provides a corenetwork device, where the core network device is a core network devicein a system for providing an application service and includes:

a receiver and a processor, where:

the receiver is configured to receive one or more pieces of thefollowing information sent by a first application server in the system:charging information, an application request, a copy of the applicationrequest, and a copy of an application response; and

the processor is configured to perform charging or interception.

With reference to the seventh aspect, in a first possibleimplementation,

the processor is specifically configured to perform interception in acase in which the receiver receives the application request;

the processor is specifically configured to perform interception in acase in which the receiver receives the copy of the application requestand the copy of the application response; or

the processor is specifically configured to perform charging orinterception in a case in which the transceiver receives the copy of theapplication request or the copy of the application response.

With reference to the seventh aspect or the first possibleimplementation of the seventh aspect, in a second possibleimplementation,

the core network device further includes a transmitter, where thetransmitter is configured to send a charging or interceptionnotification to the first application server, so that the firstapplication server determines, according to the charging or interceptionnotification, whether to perform charging or interception.

According to an eighth aspect, the present invention provides an accessnetwork device, where the access network device is a first accessnetwork device in a system for providing an application service andincludes:

a receiver, a processor, and a transmitter, where:

the receiver is connected to a first application server through a firstinterface, and the transmitter is connected to the first applicationserver through the first interface;

the receiver is configured to receive a local application enable flagsent by a core network device in the system;

the processor is configured to determine, according to the localapplication enable flag, whether to allow a local application to performcharging or interception; and

in a case in which the processor determines to allow using the localapplication to perform charging or interception, the transmitter isconfigured to send uplink data of a user equipment to the firstapplication server in a case in which the processor determines to allowusing the local application, the processor is further configured tocollect charging information of the user equipment periodically, and thetransmitter is further configured to send the charging information tothe core network device; or

in a case in which the processor determines not to allow the localapplication to perform charging or interception, the transmitter isconfigured to send uplink data of a user equipment to the core networkdevice, or the transmitter is further configured to send the uplink dataof the user equipment to the first application server and send a copy ofdata of the user equipment to the core network device.

According to a ninth aspect, the present invention provides a corenetwork device, where the core network device is a core network devicein a system for providing an application service and includes:

a receiver and a transmitter, where:

the transmitter is configured to send a local application enable flag toa first access network device in the system, so that the first accessnetwork device determines, according to the local application enableflag, whether to perform charging or interception; and

the receiver is configured to receive charging information sent by thefirst access network device; or

the receiver is configured to receive uplink data of a user equipment ora copy of data of the user equipment sent by the first access networkdevice.

According to a tenth aspect, the present invention provides anapplication server, where the application server is a first applicationserver in a system for providing an application service and includes:

a communication unit and a control unit, where:

the communication unit is connected to one or more first access networkdevices in the system through a first interface;

the communication unit is configured to receive an application requestsent by the one or more first access network devices, where theapplication request is received by the one or more first access networkdevices from a user equipment;

the control unit is configured to determine whether to process anapplication service corresponding to the application request;

the control unit is further configured to determine an applicationresponse according to the application request in a case in which thecontrol unit determines to process the application service correspondingto the application request, where the application response iscorresponding to the application service; and

the communication unit is further configured to send the applicationresponse determined by the control unit to the one or more accessnetwork devices, so that the one or more access network devices send theapplication response to the user equipment.

With reference to the tenth aspect, in a first possible implementation,

the communication unit is further connected to a core network device inthe system through a second interface;

in a case in which the control unit determines not to process theapplication request,

the communication unit is further configured to send the applicationrequest to the core network device, so that the core network devicesends the application request to a service provider, so that the serviceprovider determines an application response according to the applicationrequest, where the application response is corresponding to theapplication service;

the communication unit is further configured to receive the applicationresponse sent by the core network device, where the application responseis received by the core network device from the service provider; and

the communication unit is further configured to send the applicationresponse to the one or more access network devices, so that the one ormore access network devices send the application response to the userequipment.

With reference to the tenth aspect, in a second possible implementation,

the communication unit is further connected to a second applicationserver in the system through a fourth interface;

in a case in which the control unit determines not to process theapplication request,

the communication unit is further configured to send the applicationrequest to the second application server, so that the second applicationserver acquires the application response;

the communication unit is further configured to receive the applicationresponse sent by the second application server; and

the communication unit is further configured to send the applicationresponse to the one or more access network devices, so that the one ormore access network devices send the application response to the userequipment.

With reference to the tenth aspect, in a third possible implementation,

the communication unit is further connected to a third applicationserver in the system through a sixth interface;

in a case in which the control unit determines not to process theapplication request,

the communication unit is further configured to send the applicationrequest to the second application server, so that the second applicationserver acquires the application response;

the communication unit is further configured to receive the applicationresponse sent by the second application server; and

the communication unit is further configured to send the applicationresponse to the one or more access network devices, so that the one ormore access network devices send the application response to the userequipment.

With reference to the third possible implementation of the tenth aspect,in a fourth possible implementation,

the communication unit is further configured to receive an applicationrequest sent by the third application server;

the control unit is further configured to determine whether to processthe application request sent by the third application server;

the control unit is further configured to: in a case in which thecontrol unit determines to process the application request sent by thethird application server, determine, according to the applicationrequest sent by the third application server, an application responsecorresponding to the application request sent by the third applicationserver;

the communication unit is further configured to send, to the thirdapplication server, the application response corresponding to theapplication request sent by the third application server; and

the communication unit is further configured to send a negativenotification to the third application server in a case in which thecontrol unit determines not to process the application request sent bythe third application server, wherein the negative notification is usedfor notifying the third application server that the control unitdetermines not to process the application request sent by the thirdapplication server.

With reference to the tenth aspect or any one of the foregoing possibleimplementations of the tenth aspect, in a fifth possible implementation,

the control unit is further configured to determine guaranteeinformation according to the application response and a networkenvironment;

the communication unit is further configured to send the guaranteeinformation to the one or more first access network devices, where theguarantee message is used for instructing the first access networkdevice to guarantee sending of the application response; and

the control unit is further configured to determine to restore a networkstate in a case in which the communication unit completes sending of theguarantee message and the application response.

With reference to the tenth aspect, in a sixth possible implementation,in a case in which the communication unit is connected to one accessnetwork device in the system through the first interface, the one accessnetwork device is connected to a core network device in the systemthrough a third interface, and the control unit determines not toprocess the application request,

the communication unit is further configured to send a negativenotification to the at least one first access network device, fornotifying the first access network device that the application server isnot capable of processing the application service corresponding to theapplication request.

With reference to the tenth aspect or any one of the first possibleimplementation to the fifth possible implementation of the tenth aspect,in a seventh possible implementation,

the control unit is further configured to perform General Packet RadioService GPRS Tunneling Protocol-User plane GTP-U decapsulation oninformation received by the communication unit, and perform GTP-Uencapsulation on information sent by the communication unit.

According to an eleventh aspect, the present invention provides anapplication server, where the application server is each secondapplication server in a system for providing an application service andincludes:

a communication unit and a control unit, where:

the communication unit is connected to a first application server in thesystem through a fourth interface, and the communication unit isconnected to a core network in the system through a fifth interface;

the communication unit is configured to receive an application requestsent by the first application server;

the control unit is configured to determine whether to process anapplication service corresponding to the application request;

the control unit is further configured to determine an applicationresponse according to the application request in a case in which thecontrol unit determines to process the application request, where theapplication response is corresponding to the application service; and

the communication unit is further configured to send the applicationresponse to the first application server.

With reference to the eleventh aspect, in a first possibleimplementation, in a case in which the control unit determines not toprocess the application service corresponding to the applicationrequest,

the communication unit is further configured to send the applicationrequest to the core network device, so that the core network devicesends the application request to a service provider, so that the serviceprovider determines an application response according to the applicationrequest, where the application response is corresponding to theapplication service;

the communication unit is further configured to receive the applicationresponse sent by the core network device, where the application responseis received by the core network device from the service provider; and

the communication unit is further configured to send the applicationresponse to the first application server.

According to a twelfth aspect, the present invention provides an accessnetwork device, where the access network device is a first accessnetwork device in a system for providing an application service andincludes:

a receiving unit and a sending unit, where:

the receiving unit is connected to a first application server in thesystem through a first interface, and the sending unit is connected tothe first application server in the system through the first interface;

the receiving unit is configured to receive an application request sentby a user equipment; and

the sending unit is configured to send the application request to thefirst application server.

With reference to the twelfth aspect, in a first possibleimplementation, the receiving unit is further connected to a corenetwork device in the system through a third interface, and the sendingunit is further connected to the core network device through the thirdinterface;

the sending unit is specifically configured to send the applicationrequest to the first application server according to an offload policy;and

the sending unit is further configured to send the application requestto the core network device according to the offload policy.

With reference to the first possible implementation in a second possibleimplementation,

the receiving unit is further configured to receive a negativenotification sent by the first application server, where the negativenotification is used for notifying the first access network device thatthe application server is not capable of processing an applicationservice corresponding to the application request; and

the sending unit is further configured to send the application requestto the core network device in a case in which the receiving unitreceives the negative notification.

With reference to the twelfth aspect or the first possibleimplementation of the twelfth aspect, in a third possibleimplementation,

the receiving unit is further configured to receive an applicationresponse and guarantee information that are sent by the firstapplication server; and

the sending unit is further configured to send the application responseto the user equipment according to the guarantee information.

With reference to the first possible implementation of the twelfthaspect or the second possible implementation of the twelfth aspect, in afourth possible implementation,

the receiving unit is further configured to receive an applicationresponse sent by the core network device; and

the sending unit is further configured to send the application responseto the user equipment.

According to a thirteenth aspect, the present invention provides a corenetwork device, where the core network device is a core network devicein a system for providing an application service and includes:

a receiving unit and a sending unit, where:

the receiving unit is configured to receive an application request,where the application request is corresponding to an applicationservice;

the sending unit is configured to send the application request to aservice provider, so that the service provider determines an applicationresponse according to the application request, where the applicationresponse is corresponding to the application service; and

the receiving unit is further configured to receive the applicationresponse sent by the service provider.

With reference to the thirteenth aspect, in a first possibleimplementation,

in a case in which the receiving unit is connected, through a secondinterface, to a first application server in the system for providing anapplication service and the sending unit is connected to the firstapplication server through the second interface, the receiving unit isspecifically configured to receive the application request sent by thefirst application server, and the sending unit is further configured tosend the application response to the first application server;

in a case in which the receiving unit is connected, through a fifthinterface, to a second application server in the system for providing anapplication service and the sending unit is connected to the secondapplication server through the fifth interface, the receiving unit isspecifically configured to receive the application request sent by thesecond application server, and the sending unit is further configured tosend the application response to the second application server; or

in a case in which the receiving unit is connected, through a thirdinterface, to a first access network device in the system for providingan application service and the sending unit is connected to the firstaccess network device through the third interface, the receiving unit isspecifically configured to receive the application request sent by thefirst access network device, and the sending unit is further configuredto send the application response to the first access network device.

According to a fourteenth aspect, the present invention provides anapplication server, where the application server is a first applicationserver in a system for providing an application service and includes:

a communication unit and a control unit, where:

the communication unit is configured to receive an application requestsent by a first access network device, where the application request isreceived by the first access network device from a user equipment, andthe application request is corresponding to an application service;

the control unit is configured to acquire an application response, wherethe application response is corresponding to the application service;and

the control unit is further configured to control a charging orinterception process.

With reference to the fourteenth aspect, in a first possibleimplementation, that the control unit is configured to control acharging or interception process includes that:

the control unit is specifically configured to send a copy of theapplication request to a core network device in the system through thecommunication unit, to instruct the core network device to startperforming charging or interception; and

the control unit is specifically configured to send a copy of theapplication response to the core network device through thecommunication unit, to instruct the core network device to performcharging or interception.

With reference to the fourteenth aspect, in a second possibleimplementation,

the communication unit is further configured to receive a charging orinterception notification sent by a core network device, where thecharging or interception notification is used for indicating charging orinterception.

With reference to the second possible implementation, in a thirdpossible implementation,

that the control unit is configured to control a charging orinterception process includes that:

the control unit is configured to determine, according to the chargingor interception notification, whether to perform charging orinterception;

the control unit is further configured to: in a case in which thecontrol unit determines to perform interception, skip processing theapplication service corresponding to the application request, and sendthe application request to the core network device in the system throughthe communication unit, to instruct the core network to start chargingor interception; and

the control unit is further configured to: in a case in which thecontrol unit determines not to perform interception, process theapplication service corresponding to the application request, performcharging, and send charging information to the core network devicethrough the communication unit, for notifying the core network device ofa charging result.

With reference to the second possible implementation, in a fourthpossible implementation, that the control unit is configured to controla charging or interception process includes that:

the control unit is configured to perform charging, and send charginginformation to the core network device through the communication unit,for notifying the core network device of a charging result;

the control unit is further configured to determine, according to thecharging or interception notification, whether to perform charging orinterception; and

the control unit is further configured: in a case in which the controlunit determines to perform interception, to send a copy of theapplication request and a copy of the application response to the corenetwork device through the communication unit, to instruct the corenetwork device to perform interception.

According to a fifteenth aspect, the present invention provides a corenetwork device, where the core network device is a core network devicein a system for providing an application service and includes:

a receiving unit and a control unit, where:

the receiving unit is configured to receive one or more pieces of thefollowing information sent by a first application server in the system:charging information, an application request, a copy of the applicationrequest, and a copy of an application response; and

the control unit is configured to perform charging or interception.

With reference to the fifteenth aspect, in a first possibleimplementation,

the control unit is specifically configured to perform interception in acase in which the receiving unit receives the application request;

the control unit is specifically configured to perform interception in acase in which the receiving unit receives the copy of the applicationrequest and the copy of the application response; or

the control unit is specifically configured to perform charging orinterception in a case in which the receiving unit receives the copy ofthe application request or the copy of the application response.

With reference to the fifteenth aspect or the first possibleimplementation of the fifteenth aspect, in a second possibleimplementation,

the core network device further includes a sending unit, where thesending unit is configured to send a charging or interceptionnotification to the first application server, so that the firstapplication server determines, according to the charging or interceptionnotification, whether to perform charging or interception.

According to a sixteenth aspect, the present invention provides anaccess network device, where the access network device is a first accessnetwork device in a system for providing an application service andincludes:

a receiving unit, a control unit, and a sending unit, where:

the receiving unit is connected to a first application server through afirst interface, and the sending unit is connected to the firstapplication server through the first interface;

the receiving unit is configured to receive a local application enableflag sent by a core network device in the system;

the control unit is configured to determine, according to the localapplication enable flag, whether to allow a local application to performcharging or interception; and

in a case in which the control unit determines to allow using the localapplication to perform charging or interception, the sending unit isconfigured to send uplink data of a user equipment to the firstapplication server in a case in which the control unit determines toallow using the local application, the control unit is furtherconfigured to collect charging information of the user equipmentperiodically, and the sending unit is further configured to send thecharging information to the core network device; or

in a case in which the control unit determines not to allow the localapplication to perform charging or interception, the sending unit isconfigured to send uplink data of a user equipment to the core networkdevice, or the sending unit is further configured to send the uplinkdata of the user equipment to the first application server and send acopy of data of the user equipment to the core network device.

According to a seventeenth aspect, the present invention provides a corenetwork device, where the core network device is a core network devicein a system for providing an application service and includes:

a receiving unit and a sending unit, where:

the sending unit is configured to send a local application enable flagto a first access network device in the system, so that the first accessnetwork device determines, according to the local application enableflag, whether to perform charging or interception; and

the receiving unit is configured to receive charging information sent bythe first access network device; or

the receiving unit is configured to receive uplink data of a userequipment or a copy of data of the user equipment sent by the firstaccess network device.

According to an eighteenth aspect, the present invention provides amethod for providing an application service, where the method isexecuted by a first application server in a system for providing anapplication service, where the first application server is connected toa first access network device in the system, and the method includes:

receiving an application request sent by the first access networkdevice, where the application request is received by the first accessnetwork device from a user equipment;

determining whether to process an application service corresponding tothe application request;

in a case in which it is determined to process the application servicecorresponding to the application request, determining an applicationresponse according to the application request; and

sending the application response to the first access network device, sothat the first access network device sends the application response tothe user equipment.

With reference to the eighteenth aspect, in a first possibleimplementation, in a case in which it is determined not to process theapplication service corresponding to the application request,

sending the application request to a target device;

receiving the application response sent by the target device, where thetarget device is a core network device, a second application server, ora third application server in the system; and

sending the application response to the first access network device, sothat the first access network device sends the application response tothe user equipment.

With reference to the eighteenth aspect, in a second possibleimplementation, in a case in which it is determined not to process theapplication service corresponding to the application request,

sending a negative notification to the first access network device,where the negative notification is used for notifying the first accessnetwork device that the application server is not capable of processingthe application service corresponding to the application request.

With reference to the eighteenth aspect or the first possibleimplementation of the eighteenth aspect, in a third possibleimplementation, the method further includes:

determining a guarantee message according to the application responseand a network environment, where the guarantee message is used forinstructing the first access network device to guarantee sending of theapplication response;

in a case in which the application response is sent to the first accessnetwork device, sending the guarantee message to the first accessnetwork device, so that the first access network device sends theapplication response to the user equipment according to the guaranteemessage; and

in a case in which sending of the application response is completed,restoring a network state.

According to a nineteenth aspect, the present invention provides amethod for providing an application service, where the method isexecuted by a second application server in a system for providing anapplication service, where the second application server is connected toa first application server in the system, and the second applicationserver is further connected to a core network device in the system, andthe method includes:

receiving an application request sent by the first application server;

determining whether to process an application service corresponding tothe application request;

in a case in which it is determined to process the application servicecorresponding to the application request, determining an applicationresponse according to the application request, where the applicationresponse is corresponding to the application service; and

sending the application response to the first application server.

With reference to the nineteenth aspect, in a first possibleimplementation, in a case in which it is determined not to process theapplication service corresponding to the application request, the methodfurther includes:

sending the application request to the core network device, so that thecore network device sends the application request to a service provider,so that the service provider determines an application responseaccording to the application request, where the application response iscorresponding to the application service;

receiving the application response sent by the core network device; and

sending the application response to the first application server.

According to a twentieth aspect, the present invention provides a methodfor providing an application service, where the method is executed by afirst access network device in a system for providing an applicationservice, where the first access network device is connected to a firstapplication server in the system, and the method includes:

receiving an application request sent by a user equipment; and

sending the application request to the first application server.

With reference to the twentieth aspect, in a first possibleimplementation, in a case in which the first access network device isfurther connected to a core network device in the system, the sendingthe application request to the first application server includes:

sending the application request to the first application serveraccording to an offload policy; and

the method further includes:

sending the application request to the core network device according tothe offload policy.

With reference to the first possible implementation of the twentiethaspect, in a second possible implementation, the method furtherincludes:

receiving a negative notification sent by the first application server,where the negative notification is used for notifying the first accessnetwork device that the application server is not capable of processingan application service corresponding to the application request; and

sending the application request to the core network device.

With reference to the twentieth aspect or the first possibleimplementation of the twentieth aspect, in a third possibleimplementation, the method further includes:

receiving an application response and guarantee information that aresent by the first application server; and

sending the application response to the user equipment according to theguarantee information.

With reference to the twentieth aspect or the first possibleimplementation of the twentieth aspect, in a fourth possibleimplementation, the method further includes:

receiving an application response sent by the core network device; and

sending the application response to the user equipment.

According to a twenty-first aspect, the present invention provides amethod for providing an application service, where the method isexecuted by a core network device in a system for providing anapplication service, and the method includes:

receiving an application request, where the application request iscorresponding to an application service;

sending the application request to a service provider, so that theservice provider determines an application response according to theapplication request, where the application response is corresponding tothe application service; and

receiving the application response sent by the service provider.

With reference to the twenty-first aspect, in a first possibleimplementation,

in a case in which the core network device is connected to a firstapplication server in the system and the application request is receivedfrom the first application server, the method further includes: sendingthe application response to the first application server;

in a case in which the core network device is connected to a secondapplication server in the system and the application request is receivedfrom the second application server, the method further includes: sendingthe application response to the second application server; or

in a case in which the core network device is connected to a firstaccess network device in the system and the application request isreceived from the first access network device, the method furtherincludes: sending the application response to the first access networkdevice.

According to a twenty-second aspect, the present invention provides amethod for charging or interception when an application service isprovided, where the method is executed by a first application server ina system for providing an application service, where the firstapplication server is connected to a first access network device in thesystem, and the method includes:

receiving an application request sent by the first access networkdevice, where the application request is received by the first accessnetwork device from a user equipment, and the application request iscorresponding to an application service; and

triggering a charging or interception process.

With reference to the twenty-second aspect, in a first possibleimplementation, the charging or interception process includes:

sending a copy of the application request to a core network device, toinstruct the core network device to start performing charging orinterception; and

in a case in which an application response is sent to the userequipment, sending a copy of the application response to the corenetwork device, to instruct the core network device to perform chargingor interception, where the application response is corresponding to theapplication service.

With reference to the twenty-second aspect, in a second possibleimplementation, the method further includes:

before the application request sent by the user equipment is received,receiving a charging or interception notification sent by a core networkdevice, where the charging or interception notification is used forindicating a charging or interception rule.

With reference to the second possible implementation of thetwenty-second aspect, in a third possible implementation, the chargingor interception process includes:

in a case in which the application request sent by the user equipment isreceived, determining, according to the charging or interceptionnotification, whether to perform charging or interception; and

in a case in which it is determined to perform interception, skippingprocessing the application service corresponding to the applicationrequest, and sending the application request to the core network device,to instruct the core network device to start performing charging orinterception; or

in a case in which it is determined not to perform interception,processing the application service corresponding to the applicationrequest, and performing charging, and in a case in which an applicationresponse is sent to the user equipment, sending charging information tothe core network device, for notifying the core network device of acharging result.

With reference to the second possible implementation of thetwenty-second aspect, in a fourth possible implementation, the chargingor interception process includes:

in a case in which the application request is received, performingcharging, and in a case in which an application response is sent to theuser equipment, sending charging information to the core network device,for notifying the core network device of a charging result;

in a case in which the charging information is sent to the core networkdevice, determining, according to the charging or interceptionnotification, whether to perform charging or interception; and

in a case in which it is determined to perform interception, sending acopy of the application request and a copy of the application responseto the core network device, to instruct the core network device to startperforming interception.

According to a twenty-third aspect, the present invention provides amethod for charging or interception when an application service isprovided, where the method is executed by a core network device in asystem for providing an application service, and the method includes:

receiving one or more pieces of the following information sent by afirst application server in the system: charging information, anapplication request, a copy of the application request, and a copy of anapplication response;

in a case in which the application request is received, performinginterception;

in a case in which the copy of the application request and the copy ofthe application response are received, performing interception; and

in a case in which the copy of the application request or the copy ofthe application response is received, performing charging orinterception.

With reference to the twenty-third aspect, in a first possibleimplementation, before the receiving one or more pieces of the followinginformation sent by a first application server in the system: charginginformation, an application request, a copy of the application request,and a copy of an application response, the method further includes:

sending a charging or interception notification to the first applicationserver, so that the first application server determines, according tothe charging or interception notification, whether to perform chargingor interception.

According to a twenty-fourth aspect, the present invention provides amethod for charging or interception when an application service isprovided, where the method is executed by a first access network devicein a system for providing an application service, where the first accessnetwork device is connected to a first application server in the system,and the method includes:

receiving a local application enable flag sent by a core network device;

determining, according to the local application enable flag, whether toallow a local application to perform a charging or interception service;and

in a case in which it is determined to allow the local application toperform charging or interception, sending uplink data of a userequipment to the first application server, collecting charginginformation of the user equipment periodically, and sending the charginginformation to the core network device; or

in a case in which it is determined not to allow the local applicationto perform charging or interception, sending the uplink data of the userequipment to the core network device, or sending uplink data of a userequipment to the first application server and sending a copy of data ofthe user equipment to the core network device.

According to a twenty-fifth aspect, the present invention provides amethod for charging or interception when an application service isprovided, where the method is executed by a core network device in asystem for providing an application service, and the method includes:

sending a local application enable flag to a first access network devicein the system, so that the first access network device determines,according to the local application enable flag, whether to performcharging or interception; and

receiving charging information sent by the first access network device;or

receiving uplink data of a user equipment or a copy of data of the userequipment sent by the first access network device.

According to the embodiments of the present invention, an applicationserver for providing content and application services is deployed on aradio access network side (Radio Access Network, RAN) by connecting theapplication server to an access network device. Because the applicationserver may acquire information about a wireless network environment,network sending scheduling may be adjusted according to the networkenvironment, which guarantees sending of service content and improvesuser experience. In addition, because the application server is deployedon the RAN side, resources from the RAN to a core network may be saved.In addition, in a case in which the application server may process anapplication request, charging and interception of an application serviceare also deployed on the RAN side, which may reduce burden of the corenetwork.

BRIEF DESCRIPTION OF THE DRAWINGS

To describe the technical solutions in the embodiments of the presentinvention more clearly, the following briefly introduces theaccompanying drawings required for describing the embodiments of thepresent invention. Apparently, the accompanying drawings in thefollowing description show merely some embodiments of the presentinvention, and a person of ordinary skill in the art may still deriveother drawings from these accompanying drawings without creativeefforts.

FIG. 1a is a schematic structural diagram of a system for providing anapplication service according to an embodiment of the present invention;

FIG. 1b is a schematic structural diagram of another system forproviding an application service according to an embodiment of thepresent invention;

FIG. 1c is a schematic structural diagram of another system forproviding an application service according to an embodiment of thepresent invention;

FIG. 1d is a schematic structural diagram of another system forproviding an application service according to an embodiment of thepresent invention;

FIG. 1e is a schematic structural diagram of another system forproviding an application service according to an embodiment of thepresent invention;

FIG. 1f is a schematic structural diagram of another system forproviding an application service according to an embodiment of thepresent invention;

FIG. 2 is a schematic flowchart of a method for providing an applicationservice according to an embodiment of the present invention;

FIG. 3 is a schematic flowchart of a method for providing an applicationservice according to an embodiment of the present invention;

FIG. 4 is a schematic flowchart of a method for providing an applicationservice according to an embodiment of the present invention;

FIG. 5 is a schematic flowchart of a method for providing an applicationservice according to an embodiment of the present invention;

FIG. 6 is a schematic flowchart of a method for providing an applicationservice according to an embodiment of the present invention;

FIG. 7 is a schematic flowchart of a method for charging or interceptionwhen an application service is provided according to an embodiment ofthe present invention;

FIG. 8 is a schematic flowchart of a method for charging or interceptionwhen an application service is provided according to an embodiment ofthe present invention;

FIG. 9 is a schematic flowchart of a method for charging or interceptionwhen an application service is provided according to an embodiment ofthe present invention;

FIG. 10 is a schematic flowchart of a method for charging orinterception when an application service is provided according to anembodiment of the present invention;

FIG. 11 is a schematic flowchart of a method for charging orinterception when an application service is provided according to anembodiment of the present invention;

FIG. 12 is a schematic flowchart of a method for charging orinterception when an application service is provided according to anembodiment of the present invention;

FIG. 13 is a schematic flowchart of a method for charging orinterception when an application service is provided according to anembodiment of the present invention;

FIG. 14 is a schematic flowchart of a method for charging orinterception when an application service is provided according to thepresent invention;

FIG. 15 is a schematic flowchart of a method for charging orinterception when an application service is provided according to thepresent invention;

FIG. 16 is a schematic block diagram of an application server accordingto the present invention;

FIG. 17 is a schematic block diagram of an application server accordingto an embodiment of the present invention;

FIG. 18 is a schematic block diagram of an access network deviceaccording to an embodiment of the present invention;

FIG. 19 is a schematic block diagram of a core network device accordingto the present invention;

FIG. 20 is a schematic block diagram of a core network device accordingto the present invention;

FIG. 21 is a schematic block diagram of an access network deviceaccording to the present invention; and

FIG. 22 is a schematic block diagram of a core network device accordingto the present invention.

DETAILED DESCRIPTION

The following clearly describes the technical solutions in theembodiments of the present invention with reference to the accompanyingdrawings in the embodiments of the present invention. Apparently, thedescribed embodiments are merely some but not all of the embodiments ofthe present invention. All other embodiments obtained by a person ofordinary skill in the art based on the embodiments of the presentinvention without creative efforts shall fall within the protectionscope of the present invention.

It should be understood that, the technical solutions of the embodimentsof the present invention may be applied to various communicationssystems, such as: a Global System for Mobile Communications (GlobalSystem for Mobile Communications, “GSM” for short) system, a CodeDivision Multiple Access (Code Division Multiple Access, “CDMA” forshort) system, a Wideband Code Division Multiple Access (Wideband CodeDivision Multiple Access, “WCDMA” for short) system, a general packetradio service (General Packet Radio Service, “GPRS” for short), a LongTerm Evolution (Long Term Evolution, “LTE” for short) system, an LTEfrequency division duplex (Frequency Division Duplex, “FDD” for short)system, an LTE time division duplex (Time Division Duplex, “TDD” forshort), a Universal Mobile Telecommunications System (Universal MobileTelecommunication System, “UMTS” for short) or the like.

A UE (User Equipment, UE) may also be called a mobile terminal (MobileTerminal, MT), a mobile user equipment, and the like, and maycommunicate with one or more core networks through a radio accessnetwork (for example, Radio Access Network, RAN). The user equipment maybe a mobile terminal, such as a mobile phone (also referred to as a“cellular” phone) or a computer with a mobile terminal. For example, theuser equipment may be a portable, pocket-sized, handheld, computerbuilt-in, or in-vehicle mobile apparatus.

A base station may be a base station (Base Transceiver Station, BTS) inthe GSM or CDMA, may also be a base station (NodeB) in the WCDMA, andmay further be an eNB or e-NodeB in the LTE, which is not limited in thepresent invention.

A base station controller may be a BSC (Base Station Controller, basestation controller), or an RNC (Radio Network Controller, radio networkcontroller), or an eNodeB (evolved NodeB, evolved NodeB), which is notlimited in the present invention.

FIG. 1a is a schematic structural diagram of a system for providing anapplication service according to an embodiment of the present invention.As shown in FIG. 1 a, the system 100 includes a first access networkdevice 101 and a first application server 102. A first interface existsbetween the first access network device 101 and the first applicationserver 102, where the first interface may be an internal interface ormay be an external interface. Optionally, the first access networkdevice 101 may be a base station or may be a base station controller.

It should be understood that for ease of description, only one firstaccess network device and one first application server are shown in thesystem 100 in FIG. 1 a. However, the system 100 in FIG. 1a may includemultiple first access network devices and multiple first applicationservers, where a quantity of first access network devices may be thesame as a quantity of first application servers, in other words, onefirst access network device is connected to one first application serverthrough the first interface.

FIG. 1b is a schematic structural diagram of another system forproviding an application service according to an embodiment of thepresent invention. As shown in FIG. 1 b, the system 110 includes a firstaccess network device 101, a first application server 102, and a corenetwork device 103. A first interface exists between the first accessnetwork device 101 and the first application server 102. Optionally, thefirst interface may be an internal interface or may be an externalinterface. A third interface exists between the first access networkdevice 101 and the core network device 103. Optionally, the first accessnetwork device 101 may be a base station or may be a base stationcontroller.

It should be understood that for ease of description, only one firstaccess network device and one first application server are shown in thesystem 110 in FIG. 1 b. However, the system 110 in FIG. 1b may includemultiple first access network devices and multiple first applicationservers, where a quantity of first access network devices is the same asa quantity of first application servers, in other words, one firstaccess network device is connected to one first application serverthrough the first interface. The core network device is connected to themultiple first access network devices through third interfaces.

FIG. 1c is a schematic structural diagram of another system forproviding an application service according to an embodiment of thepresent invention. As shown in FIG. 1 c, the system 120 includes a firstaccess network device 101, a first application server 102, and a corenetwork device 103. A first interface exists between the first accessnetwork device 101 and the first application server 102, where the firstinterface may be an internal interface or may be an external interface.A second interface exists between the first application server 102 andthe core network device 103, where the second interface may be anexternal interface. Optionally, the first access network device 101 maybe a base station or may be a base station controller. A third interfacemay also exist between the first access network device 101 and the corenetwork device 103.

It should be understood that for ease of description, only one firstaccess network device and one first application server are shown in thesystem 120 in FIG. 1 c. However, the system 120 in FIG. 1c may furtherinclude multiple first access network devices and multiple firstapplication servers, where a quantity of first access network devices isthe same as a quantity of first application servers, in other words, onefirst access network device is connected to one first application serverthrough the first interface. The core network device is connected to themultiple first application servers through second interfaces.

FIG. 1d is a schematic structural diagram of another system forproviding an application service according to an embodiment of thepresent invention. As shown in FIG. 1 d, the system 130 includes a firstaccess network device 101, a first application server 102, a corenetwork device 103, and a second access network device 104. A firstinterface exists between the first access network device 101 and thefirst application server 102, and a first interface also exists betweenthe second access network device 104 and the first application server102, where the first interface is an internal interface. A secondinterface exists between the first application server 102 and the corenetwork device 103. Optionally, the second interface may be an internalinterface or may be an external interface. Optionally, the first accessnetwork device 101 may be a base station or may be a base stationcontroller.

It should be understood that for ease of description, only a firstaccess network device and a second access network device are shown inthe system 130 in FIG. 1 d. The “first” and “second” in “first accessnetwork device” and “second access network device” in FIG. 1d are onlyused to distinguish different access network devices connected to thefirst application server, and interchange of “first” and “second” alsofalls within the protection scope of the present invention. The system130 in FIG. 1d may further include multiple access network devices. Themultiple access network devices are connected to the first applicationserver through first interfaces.

FIG. 1e is a schematic structural diagram of another system forproviding an application service according to an embodiment of thepresent invention. As shown in FIG. 1e the system 140 includes a firstaccess network device 101, a first application server 102, a corenetwork device 103, and a second application server 105. A firstinterface exists between the first access network device 101 and thefirst application server 102. Optionally, the first interface may be aninternal interface or may be an external interface. A fourth interfaceexists between the first application server 102 and the secondapplication server 105. A fifth interface exists between the secondapplication server 105 and the core network device 103. Optionally, thefifth interface may be an internal interface or may be an externalinterface. A sixth interface exists between the first application server102 and the third application server 106.

It should be understood that for ease of description, only one firstaccess network device and one first application server are shown in thesystem 140 in FIG. 1 e. However, the system 140 in FIG. 1e may includemultiple first access network devices and multiple first applicationservers, where a quantity of first access network devices is the same asa quantity of first application servers, in other words, one firstaccess network device is connected to one first application serverthrough the first interface. The second application server is connectedto the multiple first application servers through fourth interfaces.

FIG. 1f is a schematic structural diagram of another system forproviding an application service according to an embodiment of thepresent invention. As shown in FIG. 1 f, the system 150 includes a firstaccess network device 101, a first application server 102, a corenetwork device 103, a second access network device 104, a secondapplication server 105, and a third application server 106. A firstinterface exists between the first access network device 101 and thefirst application server 102. A first interface exists between thesecond access network device 104 and the third application server 106.Optionally, the first interface may be an internal interface or may bean external interface. A fourth interface exists between the firstapplication server 102 and the second application server 105. A fourthinterface exists between the third application server 106 and the secondapplication server 105. A fifth interface exists between the secondapplication server 105 and the core network device 103. Optionally, thefifth interface may be an internal interface or may be an externalinterface. A sixth interface exists between the first application server102 and the third application server 106.

It should be understood that for ease of description, only one firstaccess network device, one second access network device, one firstapplication server, and one third application server are shown in thesystem 150 in FIG. 1 f. However, the system 150 in FIG. 1f may furtherinclude multiple first access network devices, multiple second accessnetwork devices, multiple first application servers, and multiple thirdapplication servers, where a quantity of first access network devices, aquantity of second access network devices, a quantity of firstapplication servers, and a quantity of third application servers are thesame, in other words, one first access network device is connected toone first application server through a first interface, one secondaccess network device is connected to one third application serverthrough a first interface, and one first application server is connectedto one third application server through a sixth interface. The secondapplication server is connected to the multiple first applicationservers and multiple third application servers through fourthinterfaces. In addition, the “first”, “second”, and “third” in “firstaccess network device”, “second access network device”, “firstapplication server” and “third application server” in FIG. 1f are merelyused to distinguish different access network devices or applicationservers, but functions of the access network devices and applicationservers may be the same. That is to say, the “first” and “second” in“first access network device” and “second access network device” may beinterchanged, and/or the “first” and “third” in “first applicationserver” and “third application server” may be interchanged, withoutgoing beyond the protection scope of the present invention. It should benoted that in a case in which the second application server hasfunctions different from those of the first application server and thirdapplication server in FIG. 1 f, the second application server cannot beinterchanged with the first application server and third applicationserver. If the functions of the second application server are the sameas those of the first application server and third application server,the second application server may be interchanged with the firstapplication server and third application server.

Optionally, in the system in FIG. 1a to FIG. 1 f, the first accessnetwork device collects information about a wireless network environmentperiodically, and sends the information about the wireless networkenvironment to the first application server periodically, so that thefirst application server and the first access network device adjustnetwork sending scheduling according to the wireless network environmentand an application response, to guarantee sending of the applicationresponse that carries content of an application service.

Optionally, in the system in FIG. 1c to FIG. 1 f, when receiving data,the first application server, second application server, and/or thirdapplication server performs GPRS Tunneling Protocol-User plane (GPRSTunneling Protocol-User Plane, GTP-U) decapsulation on the received dataand then processes the decapsulated data (for example, an applicationrequest), and in a case in which data needs to be sent, performs GTP-Uencapsulation on the data to be sent (for example, an applicationresponse), so that the data is transmitted in a transmission medium.

Optionally, the first application server may be further configured toprovide a charging or interception service.

According to the system in FIG. 1a to FIG. 1 f, an application serverfor providing content and application services is deployed on a radioaccess network side (Radio Access Network, RAN) by connecting theapplication server to an access network device. Because the applicationserver may acquire information about a wireless network environment,network sending scheduling may be adjusted according to the networkenvironment, which guarantees sending of service content and improvesuser experience. In addition, because the application server is deployedon the RAN side, resources from the RAN to a core network may be saved.In addition, in a case in which the application server may process anapplication request, charging and interception of an application serviceare also deployed on the RAN side, which may reduce burden of the corenetwork.

FIG. 2 is a schematic flowchart of a method for providing an applicationservice according to an embodiment of the present invention. The methodin FIG. 2 may be applied to the system for providing an applicationservice in FIG. 1a to FIG. 1 f, and is executed by a first applicationserver in the corresponding system.

201. Receive an application request sent by a first access networkdevice, where the application request is received by the first accessnetwork device from a user equipment.

202. Determine whether to process an application service correspondingto the application request.

203. In a case in which it is determined to process the applicationservice corresponding to the application request, determine anapplication response according to the application request.

204. Send the application response to the first access network device,so that the first access network device sends the application responseto the user equipment.

Optionally, in a case in which the method in FIG. 2 is applied in thesystem for providing an application service in FIG. 1 b, in a case inwhich the first application server determines not to process theapplication service corresponding to the application request, the methodmay further include step 205.

205. Send a negative notification to the first access network device,where the negative notification is used for notifying the first accessnetwork device that the application server is not capable of processingthe application service corresponding to the application request.

Optionally, in a case in which the method in FIG. 2 is applied in thesystem for providing an application service in FIG. 1c to FIG. 1 f, in acase in which the first application server determines not to process theapplication service corresponding to the application request, the methodmay further include step 206 to step 211.

206. Send the application request to a target device.

207. Receive the application response sent by the target device, wherethe target device is a core network device in the system in a case inwhich the method in FIG. 2 is applied in FIG. 1c and FIG. 1 d. In a casein which the method in FIG. 2 is applied in FIG. 1e and FIG. 1 f, thetarget device is a second application server in the system. In a case inwhich the method in FIG. 2 is applied in FIG. 1 f, the target device isa third application server in the system or a second application serverin the system.

208. Send the application response to the first access network device,so that the first access network device sends the application responseto the user equipment.

209. Determine a guarantee message according to the application responseand a network environment, where the guarantee message is used forinstructing the first access network device to guarantee sending of theapplication response.

Optionally, the first application server may periodically receiveinformation about a wireless network environment that is sent by thefirst access network device.

210. In a case in which the application response is sent to the firstaccess network device, send the guarantee message to the first accessnetwork device, so that the first access network device sends theapplication response to the user equipment according to the guaranteemessage.

It should be noted that step 209 may be executed before step 208, andthat step 210 may be executed with step 208 simultaneously.

211. In a case in which sending of the application response iscompleted, restore a network state.

According to the method shown in FIG. 2, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved.

FIG. 3 is a schematic flowchart of a method for providing an applicationservice according to an embodiment of the present invention. The methodin FIG. 3 may be applied to the system for providing an applicationservice in FIG. 1e and FIG. 1 f, and is executed by a second applicationserver in the corresponding system.

301. Receive an application request sent by a first application server.

302. Determine whether to process an application service correspondingto the application request.

303. In a case in which it is determined to process the applicationservice corresponding to the application request, determine anapplication response according to the application request, where theapplication response is corresponding to the application service.

304. Send the application response to the first application server.

Optionally, in a case in which the second application server determinesnot to process the application service corresponding to the applicationrequest, the method further includes step 305 to step 307.

305. Send the application request to a core network device, so that thecore network device sends the application request to a service provider,so that the service provider determines an application responseaccording to the application request, where the application response iscorresponding to the application service.

306. Receive the application response sent by the core network device.

307. Send the application response to the first application server.

According to the method shown in FIG. 3, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved. A second application server may further provide an applicationservice for a user equipment in a case in which a first applicationserver is not capable of providing the application service for the userequipment. Therefore, a capability of processing an application requeston the RAN side by the application server can be improved, and therebyworkload of a core network device may be reduced.

FIG. 4 is a schematic flowchart of a method for providing an applicationservice according to an embodiment of the present invention. The methodin FIG. 4 may be applied to the system for providing an applicationservice in FIG. 1a to FIG. 1 f, and is executed by a first accessnetwork device in the corresponding system.

401. Receive an application request sent by a user equipment.

402. Send the application request to a first application server.

Optionally, in a case in which the method in FIG. 4 is applied in thesystem in FIG. 1 b, or in a case in which the method in FIG. 4 isapplied in FIG. 1c and a third interface exists between the first accessnetwork device and a core network device, the application request issent to the first application server according to an offload policy, orthe application request is sent to the core network device according tothe offload policy.

In a case in which the method in FIG. 4 is applied in the system in FIG.1 b, step 403 and step 404 may be further included.

403. Receive a negative notification sent by the first applicationserver, where the negative notification is used for notifying the firstaccess network device that the application server is not capable ofprocessing an application service corresponding to the applicationrequest.

404. Send the application request to the core network device.

In a case in which the method in FIG. 4 is applied in the system in FIG.1 b, step 405 and step 406 may be further included.

405. Receive an application response sent by the core network device.

406. Send the application response to the user equipment.

In a case in which the method in FIG. 4 is applied in FIG. 1a to FIG. 1f, step 407 and step 408 may be further included.

407. Receive an application response and guarantee information that aresent by the first application server.

Optionally, the first access network device may further collectinformation about a wireless network environment periodically, andreport the network environment to the first application serverperiodically, so that the first application server determines theguarantee information according to the network environment and theapplication response.

408. Send the application response to the user equipment according tothe guarantee information.

According to the method shown in FIG. 4, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved.

FIG. 5 is a schematic flowchart of a method for providing an applicationservice according to an embodiment of the present invention. The methodin FIG. 5 may be applied to the system for providing an applicationservice in FIG. 1b to FIG. 1 f, and is executed by a core network devicein the corresponding system.

501. Receive an application request, where the application request iscorresponding to an application service.

Specifically, in a case in which the method in FIG. 5 is applied in FIG.1 b, or in a case in which the method in FIG. 5 is applied in FIG. 1cand a first access network device is connected to the core networkdevice, the application request may be received from the first accessnetwork device. In a case in which the method in FIG. 5 is applied inthe system in FIG. 1c or FIG. 1d the application request may be receivedfrom a first application server. In a case in which the method in FIG. 5is applied in the system in FIG. 1e or FIG. 1 f, the application requestmay be received from a second application server.

502. Send the application request to a service provider, so that theservice provider determines an application response according to theapplication request, where the application response is corresponding tothe application service.

503. Receive the application response sent by the service provider.

Optionally, in a case in which the method in FIG. 5 is applied in FIG. 1b, or in a case in which the method in FIG. 5 is applied in FIG. 1c andthe first access network device is connected to the core network device,the method further includes step 504.

504. Send the application response to the first access network device.

Optionally, in a case in which the method in FIG. 5 is applied in thesystem in FIG. 1c or FIG. d, the method further includes step 505.

505. Send the application response to the first application server.

Optionally, in a case in which the method in FIG. 5 is applied in thesystem in FIG. 1e or FIG. 1 f, the method further includes step 506.

506. Send the application response to the second application server.

According to the method shown in FIG. 5, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved. However, in a case in which the application server does notprovide an application service, a core network device may send anapplication request to an Internet service provider, so that the serviceprovider provides an application or content service, and forward theapplication or content service provided by the service provider, to auser equipment.

FIG. 6 is a schematic flowchart of a method for providing an applicationservice according to an embodiment of the present invention. The methodin FIG. 6 is a specific embodiment of the method in FIG. 2 to FIG. 5.

601. A user equipment sends an application request to a first accessnetwork device, for requesting an application service corresponding tothe application request.

602. In a case in which the first access network device receives theapplication request, the first access network device sends theapplication request to a first application server.

Optionally, in a case in which the method in FIG. 6 is applied in thesystem in FIG. 1 b, or in a case in which the method in FIG. 6 isapplied in FIG. 1c and a third interface exists between the first accessnetwork device and a core network device, the first access networkdevice may send the application request to the first application serveraccording to an offload policy (for example, offloading according to auser type, a service type, or the like), or may send the applicationrequest to the core network device.

603. In a case in which the first application server receives theapplication request, the first application server determines whether toprocess the application service corresponding to the applicationrequest.

604. In a case in which the first application server determines toprocess the application service corresponding to the applicationrequest, the first application server determines an application responseaccording to the application request, where the application responseincludes content of the application service corresponding to theapplication request.

Optionally, in a case in which the method in FIG. 6 is applied to thesystem in FIG. 1c to FIG. 1 f, corresponding steps in step 605 to step610 may be executed.

605. In a case in which the first application server determines not toprocess the application service corresponding to the applicationrequest, the first application server sends the application request to atarget device.

Optionally, in a case in which the method in FIG. 6 is applied in FIG.1c and FIG. 1 d, the target device is the core network device in thesystem. In a case in which the method in FIG. 6 is applied in FIG. 1eand FIG. 1 f, the target device is a second application server in thesystem. In a case in which the method in FIG. 6 is applied in FIG. 1 f,the target device is a third application server in the system or thesecond application server in the system.

Optionally, in a case in which the method in FIG. 6 is applied in FIG.1c and FIG. 1 d, the target device is the core network device in thesystem. Specifically, in a case in which the core network devicereceives the application request sent by the first application server,the core network device sends the application request to a serviceprovider, so that the service provider determines an applicationresponse according to the application request, where the applicationresponse includes the content of the application service correspondingto the application request. The service provider sends the applicationresponse to the core network device. The core network device sends theapplication response to the first application server.

Optionally, in a case in which the method in FIG. 6 is applied in FIG.1e and FIG. 1 f, the target device is the second application server inthe system. Specifically, in a case in which the second applicationserver receives the application request sent by the first applicationserver, the second application server determines whether to process theapplication service corresponding to the application request. In a casein which the second application server determines to process theapplication service corresponding to the application request, the secondapplication server determines an application response according to theapplication request, where the application response includes the contentof the application service corresponding to the application request. Ina case in which the second application server determines not to processthe application service corresponding to the application request, thesecond application server sends the application request to the corenetwork device in the system. In a case in which the core network devicereceives the application request sent by the second application server,the core network device sends the application request to a serviceprovider, so that the service provider determines an applicationresponse according to the application request, where the applicationresponse includes the content of the application service correspondingto the application request. The service provider sends the applicationresponse to the core network device. The core network device sends theapplication response to the second application server. In a case inwhich the second application server receives the application response,the second application server sends the application response to thefirst application server. Optionally, in a case in which the method inFIG. 6 is applied in FIG. 1e and FIG. 1 f, the second application servermay be further not configured to process the application request, butonly configured to provide a service support processing capability andforward the application request to the core network device.

Optionally, in a case in which the method in FIG. 6 is applied in FIG. 1f, the first application server, second application server, and thirdapplication server may provide a cloud computing service, form a devicecluster, and provide a distributed computation processing capability,and are configured to provide an application service. Thereby, in a casein which the first application server determines not to process theapplication service corresponding to the application request, the firstapplication server may send the application request to the secondapplication server and/or third application server, and the secondapplication server and/or third application server determines whether toprocess the application service corresponding to the applicationrequest.

If the second application server and/or third application serverdetermines to process the application service corresponding to theapplication request, the second application server and/or thirdapplication server determines an application response according to theapplication request, where the application response includes the contentof the application service corresponding to the application request, andsends the application response to the first application server. In acase in which the first application server receives the applicationresponse, steps after step 606 may be executed. If the secondapplication server and/or third application server determines not toprocess the application service corresponding to the applicationrequest, the second application server and/or third application serversends the application request to the service provider, so that theservice provider determines an application response according to theapplication request.

Specifically, in a case in which the first application server determinesnot to process the application service corresponding to the applicationrequest, the first application server may send the application requestto the third application server, or may send the application request tothe second application server and third server simultaneously. In a casein which the first application server sends the application request tothe third application server, the third application server determineswhether to process the application service corresponding to theapplication request. If the third application server determines toprocess the application service corresponding to the applicationrequest, the third application server determines an application responseaccording to the application request, and sends the application responseto the first application server. If the third application serverdetermines not to process the application service corresponding to theapplication request, the third application server may send theapplication request to the second application server, so that the secondapplication server processes the application request. The secondapplication server may process the application service corresponding tothe application request. Alternatively, the second application servermay send the application request to the core network device, so that thecore network device sends the application request to the serviceprovider. Thereby, the service provider may provide the applicationservice according to the application request and send an applicationincluding the content of the application service to the core networkdevice, and the core network device sends the application response tothe second application server, so that the second application serversends the application response to the first application server.Alternatively, in a case in which the third application serverdetermines not to process the application service corresponding to theapplication request, the third application server may send a negativenotification to the first application server, so that the firstapplication server sends the application request to the secondapplication server after receiving the negative notification so that thesecond application server may process the application servicecorresponding to the application request. The second application servermay further send the application request to the core network device, sothat the core network device sends the application request to theservice provider. Thereby, the service provider may provide theapplication service according to the application request and send anapplication including the content of the application service to the corenetwork device, and the core network device sends the applicationresponse to the second application server, so that the secondapplication server sends the application response to the firstapplication server. In a case in which the first application serversends the application request to the second application server and thirdapplication server simultaneously, if neither the second applicationserver nor the third application server processes the applicationservice corresponding to the application request, the second applicationserver sends the application request to the core network device, so thatthe core network device sends the application request to the serviceprovider. Thereby, the service provider may provide the applicationservice according to the application request and send an applicationincluding the content of the application service to the core networkdevice, and the core network device sends the application response tothe second application server, so that the second application serversends the application response to the first application server.

Optionally, in a case in which the method in FIG. 6 is applied in thesystem in FIG. 1 b, in a case in which the first application serverdetermines not to process the application service corresponding to theapplication request, the first application server may send a negativenotification to the first access network device, where the negativenotification is used for notifying that the first application serverdoes not process the application service corresponding to theapplication request. The negative notification may be a negativemessage, or may be the application request. In a case in which the firstaccess network device receives the negative notification, the firstaccess network device sends the application request to the core networkdevice. In a case in which the core network device receives theapplication request, the core network device sends the applicationrequest to the service provider, so that the service provider determinesan application response according to the application request, where theapplication response includes the content of the application servicecorresponding to the application request. The service provider sends theapplication response to the core network device. The core network devicesends the application response to the first core network device.

606. The first application server receives an application response sentby the target device.

607. The first application server determines a guarantee messageaccording to the content of the application service in the applicationresponse and a network environment. Specifically, the first applicationserver determines, according to the content of the application serviceand the network environment, whether the first access network deviceneeds to adjust network sending scheduling, and determines the guaranteemessage when determining that the first access network device needs toadjust network sending scheduling.

Optionally, the application response may be determined by the firstapplication server, or the application response may be received by theapplication server from the target device.

608. The first application server sends the guarantee message and theapplication response to the first access network device.

609. The first access network device sends the application response tothe user equipment. Specifically, in a case in which the first accessnetwork device receives the guarantee message, the first access networkdevice adjusts network sending scheduling according to the guaranteemessage to ensure sending of the received application response to theuser equipment that sends the application request.

610. The first access network device and the first application serverrestore a network state in a case in which sending of the applicationresponse is completed.

According to the method shown in FIG. 6, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved.

FIG. 7 is a schematic flowchart of a method for charging or interceptionwhen an application service is provided according to an embodiment ofthe present invention. The method in FIG. 7 may be used in the system inFIG. 1a to FIG. 1 f. The method is executed by a first applicationserver in a system for providing an application service.

710. Receive an application request sent by a first access networkdevice, where the application request is received by the first accessnetwork device from a user equipment, and the application request isused for requesting an application service.

602. Trigger a charging or interception process.

According to the method shown in FIG. 7, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved. In addition, the application server may further provide acharging or interception service. Therefore, in a case in which theapplication server may process an application request, charging andinterception of an application service are also deployed on the RANside, which may reduce burden of the core network.

FIG. 8 is a schematic flowchart of a method for charging or interceptionwhen an application service is provided according to an embodiment ofthe present invention. The method in FIG. 8 is a specific embodiment ofthe method in FIG. 7. The method is executed by a first applicationserver in a system for providing an application service.

801. Receive an application request sent by a first access networkdevice, where the application request is received by the first accessnetwork device from a user equipment, and the application request isused for requesting an application service.

802. Send a copy of the application request to a core network device, sothat the core network device starts performing charging or interceptionin a case in which the core network device receives the copy of theapplication request.

803. In a case in which an application response is sent to the userequipment, send a copy of the application response to the core networkdevice, so that the core network device performs charging orinterception, where the application response is corresponding to theapplication service requested by the application request, and theapplication response is sent by the first application server to the userequipment through the first access network device.

According to the method shown in FIG. 8, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved. In addition, the application server may further provide acharging or interception service. Therefore, in a case in which theapplication server may process an application request, charging andinterception of an application service are also deployed on the RANside, and the application server on the RAN side controls a charging orinterception process, which may reduce burden of the core network.

FIG. 9 is a schematic flowchart of a method for charging or interceptionwhen an application service is provided according to an embodiment ofthe present invention. The method in FIG. 9 is a specific embodiment ofthe method in FIG. 7. The method is executed by a first applicationserver in a system for providing an application service.

901. Receive a charging or interception notification sent by a corenetwork device, where the charging or interception notification is usedfor indicating a charging or interception rule.

902. In a case in which an application request is received, determine,according to the charging or interception notification, whether toperform charging or interception.

903. In a case in which it is determined to perform interception, skipprocessing an application service corresponding to the applicationrequest, and send the application request to the core network device, toinstruct the core network device to start performing charging orinterception.

904. In a case in which it is determined not to perform interception,process the application service corresponding to the applicationrequest, perform charging, and in a case in which an applicationresponse is sent to a user equipment, send charging information to thecore network device, for notifying the core network device of a chargingresult.

According to the method shown in FIG. 9, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved. In addition, the application server may further provide acharging or interception service. Therefore, in a case in which theapplication server may process an application request, charging andinterception of an application service are also deployed on the RANside, and the application server on the RAN side controls a charging orinterception process, which may reduce burden of the core network.

FIG. 10 is a schematic flowchart of a method for charging orinterception when an application service is provided according to anembodiment of the present invention. The method in FIG. 10 is a specificembodiment of the method in FIG. 7. The method is executed by a firstapplication server in a system for providing an application service.

1001. Receive a charging or interception notification sent by a corenetwork device, where the charging or interception notification is usedfor indicating a charging or interception rule.

1002. In a case in which an application request is received, performcharging.

1003. In a case in which an application response is sent to a userequipment, send charging information to the core network device, fornotifying the core network device of a charging result.

1004. In a case in which the charging information is sent to the corenetwork device, determine, according to the charging or interceptionnotification, whether to perform charging or interception.

1005. In a case in which it is determined to perform interception, senda copy of the application request and a copy of the application responseto the core network device, to instruct the core network device to startperforming interception.

According to the method shown in FIG. 10, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved. In addition, the application server may further provide acharging or interception service. Therefore, in a case in which theapplication server may process an application request, charging andinterception of an application service are also deployed on the RANside, and the application server on the RAN side controls a charging orinterception process, which may reduce burden of the core network.

FIG. 11 is a schematic flowchart of a method for charging orinterception when an application service is provided according to anembodiment of the present invention. The method in FIG. 11 may beapplied in any one system in FIG. 1b to FIG. 1 f. The method is executedby a core network device in a system for providing an applicationservice.

1101. Send a charging or interception notification to a firstapplication server, so that the first application server determines,according to the charging or interception notification, whether toperform charging or interception, where step 1101 is an optional step.

1102. Receive one or more pieces of the following information sent bythe first application server in the system: charging information, anapplication request, a copy of the application request, and a copy of anapplication response.

1103. In a case in which the application request is received, performinterception.

1104. In a case in which the copy of the application request and thecopy of the application response are received, perform interception.

1105. In a case in which the copy of the application request or the copyof the application response is received, perform charging orinterception.

According to the method shown in FIG. 11, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved. In addition, the application server may further provide acharging or interception service. Therefore, in a case in which theapplication server may process an application request, charging andinterception of an application service are also deployed on the RANside, and the application server on the RAN side controls a charging orinterception process, which may reduce burden of the core network.

FIG. 12 is a schematic flowchart of a method for charging orinterception when an application service is provided according to anembodiment of the present invention. The method in FIG. 12 may beapplied in any one system in FIG. 1b to FIG. 1 f. The method is executedby a first access network device in the system.

1201. Receive a local application enable flag sent by a core networkdevice.

1202. Determine, according to the local application enable flag, whetherto allow a local application to perform charging or interception.

1203. In a case in which it is determined to allow the local applicationto perform charging or interception, send uplink data of a userequipment to a first application server, collect charging information ofthe user equipment periodically, and send the charging information tothe core network device.

1204. In a case in which it is determined not to allow the localapplication to perform charging or interception, send the uplink data ofthe user equipment to the core network device, or send data of the userequipment to the first application server and send a copy of the data ofthe user equipment to the core network device, where the copy of thedata of the user equipment includes a copy of the uplink data (forexample, includes an application request) and a copy of downlink data(for example, includes an application response) of the user equipment.

According to the method shown in FIG. 12, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved. In addition, in a case in which the application server mayprocess an application request, charging and interception of anapplication service are also deployed on the RAN side, and the accessnetwork device on the RAN side controls a charging or interceptionprocess, which may reduce burden of the core network.

FIG. 13 is a schematic flowchart of a method for charging orinterception when an application service is provided according to anembodiment of the present invention. The method in FIG. 13 may beapplied in any one system in FIG. 1b to FIG. 1 f. The method is executedby a core network device in the system.

1301. Send a local application enable flag to a first access networkdevice in the system, so that the first access network devicedetermines, according to the local application enable flag, whether toperform charging or interception.

1302. Receive charging information sent by the first access networkdevice; or receive uplink data of a user equipment or a copy of data ofthe user equipment sent by the first access network device, where thecopy of the data of the user equipment includes a copy of the uplinkdata (for example, includes an application request) and a copy ofdownlink data (for example, includes an application response) of theuser equipment.

According to the method shown in FIG. 13, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved. In addition, in a case in which the application server mayprocess an application request, charging and interception of anapplication service are also deployed on the RAN side, and the accessnetwork device on the RAN side controls a charging or interceptionprocess, which may reduce burden of the core network.

FIG. 14 is a schematic flowchart of a method for charging orinterception when an application service is provided according to thepresent invention. The method in FIG. 14 is a specific embodiment of themethod in FIG. 12 and FIG. 13, and the method in FIG. 14 is applied inan LTE network.

1401. A user equipment sends a packet data network (Packet Data Network,PDN) connectivity request (connectivity request) to a mobilitymanagement entity (Mobility Management Entity, MME).

1402. In a case in which the MME receives the PDN connectivity request,the MME sends a create session request (create session request) to aserving gateway (Serving Gateway, S-GW) or a PDN gateway (PDN gateway,P-GW).

1403. In a case in which the S-GW or P-GW receives the create sessionrequest, the S-GW or P-GW sends a create session response to the MME,where the create session response carries a local application enable(local app enable) flag, for determining whether to allow enabling alocal application.

1404. In a case in which a base station receives a bearer setup request(bearer setup request) that is sent by the MME and carries the localapplication enable flag, the base station saves the local applicationenable flag.

1405. In a case in which the base station successfully sets up a radiolink and receives data of the user equipment, the base stationdetermines, according to the local application enable flag, whether toallow the local application to perform charging or interception.

Specifically, in a case in which the base station determines to allowthe local application to perform charging or interception, the basestation sends the data of the user equipment to a first applicationserver, periodically collects information (such as traffic) used forcharging, and reports the information to a core network device.

In a case in which the base station determines not to allow the localapplication to perform charging or interception, the base station maysend the data of the user equipment to the core network device insteadof sending the data of the user equipment to the first applicationserver. Alternatively, the base station may send the data of the userequipment to the first application server, and send a copy of the dataof the user equipment to the core network device. The core networkdevice discards the copy of the data of the user equipment afterprocessing the copy of the data of the user equipment.

Optionally, step 1406 to step 1409 may be further included and are usedfor updating the local application enable flag.

1406. A lawful interception gateway (Lawful Interception Gateway, LIG)sends an interception request message (LI request) to the S-GW or P-GW.

1407. The S-GW or P-GW determines, according to the interception requestmessage, whether to update the local application enable flag.

1408. In a case in which the S-GW or P-GW determines to update the localapplication enable flag, the S-GW or P-GW sends an update bearer request(update bearer request) to the base station, where the update bearerrequest carries an local application flag to be updated.

1409. The base station determines, according to the update bearerrequest, whether to allow the local application enable flag of a localservice to change, and performs an operation according to the updatedlocal application enable flag after receiving the data of the userequipment.

According to the method shown in FIG. 14, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved. In addition, in a case in which the application server mayprocess an application request, charging and interception of anapplication service are also deployed on the RAN side, and the accessnetwork device on the RAN side controls a charging or interceptionprocess, which may reduce burden of the core network.

FIG. 15 is a schematic flowchart of a method for charging orinterception when an application service is provided according to thepresent invention. The method in FIG. 15 is a specific embodiment of themethod in FIG. 12 and FIG. 13, and the method in FIG. 15 is applied in aUMTS network.

1501. A user equipment sends a create Packet Data Protocol (Packet DataProtocol, PDP) context request (create PDP context request) to a servingGPRS support node (Serving GPRS Support Node, SGSN).

1502. In a case in which the SGSN receives the create PDP contextrequest, the SGSN forwards the create PDP context request to a gatewayGPRS support node (Gateway GPRS Support Node, GGSN).

1503. In a case in which the GGSN receives the create PDP contextrequest, the GGSN sends a create PDP context response to the SGSN, wherethe create PDP context response carries a local application enable(local app enable) flag, for determining whether to allow enabling alocal application.

1504. A base station controller receives a radio access bearer (RadioAccess Bearer, RAB) assignment request (Assignment Request) that is sentby the SGSN and carries the local application enable flag, and saves thelocal application enable flag.

1505. In a case in which the base station controller successfully setsup a radio link and receives data of the user equipment, the basestation controller determines, according to the local application enableflag, whether to allow the local application to perform charging orinterception.

Specifically, in a case in which the base station controller determinesto allow the local application to perform charging or interception, thebase station controller sends the data of the user equipment to a firstapplication server, periodically collects information used for chargingsuch as traffic, and reports the information to a core network device.

In a case in which the base station controller determines not to allowthe local application to perform charging or interception, the basestation controller may send the data of the user equipment to the corenetwork device instead of sending the data of the user equipment to thefirst application server. The base station controller may further sendthe data of the user equipment to the first application server, and senda copy of the data of the user equipment to the core network device. Thecore network device discards the copy of the data of the user equipmentafter processing the copy of the data of the user equipment.

Optionally, step 1506 to step 1509 may be further included and are usedfor updating the local application enable flag.

1506. A lawful interception gateway (Lawful Interception Gateway, LIGsends an interception request message (LI request) to the GGSN.

1507. The GGSN determines, according to the interception requestmessage, whether to update the local application enable flag.

1508. In a case in which the GGSN determines to update the localapplication enable flag, the GGSN sends an update PDP context request(update PDP context request) to the base station controller, where theupdate PDP context request carries an local application flag to beupdated.

1509. The base station controller determines, according to the updatePDP context request, whether to allow the local application enable flagof a local service to change, and performs an operation according to theupdated local application enable flag after receiving the data of theuser equipment.

According to the method shown in FIG. 15, an application server forproviding content and application services is deployed on an RAN byconnecting the application server to an access network device. Becausethe application server may acquire information about a wireless networkenvironment, network sending scheduling may be adjusted according to thenetwork environment, which guarantees sending of service content andimproves user experience. In addition, because the application server isdeployed on the RAN side, resources from the RAN to a core network maybe saved. In addition, in a case in which the application server mayprocess an application request, charging and interception of anapplication service are also deployed on the RAN side, and the accessnetwork device on the RAN side controls a charging or interceptionprocess, which may reduce burden of the core network.

FIG. 16 is a schematic block diagram of an application server accordingto the present invention. The application server 1600 shown in FIG. 16may be a first application server in any one system in FIG. 1a to FIG. 1f, and may execute each step executed by the first application server inFIG. 2 and FIG. 6. The application server 1600 includes a transceiver1601 and a processor 1602.

The transceiver 1601 is connected to one or more first access networkdevices in the system through a first interface.

The transceiver 1601 is configured to receive an application requestsent by the one or more first access network devices, where theapplication request is received by the one or more first access networkdevices from a user equipment.

The processor 1602 is configured to determine whether to process anapplication service corresponding to the application request.

The processor 1602 is further configured to determine an applicationresponse according to the application request in a case in which theprocessor 1602 determines to process the application servicecorresponding to the application request, where the application responseis corresponding to the application service.

The transceiver 1601 is further configured to send the applicationresponse determined by the processor 1602 to the one or more accessnetwork devices, so that the one or more access network devices send theapplication response to the user equipment.

Optionally, in a case in which the application server 1600 is applied inthe system in FIG. 1c or FIG. 1 d, the transceiver 1601 is furtherconnected to a core network device in the system through a secondinterface.

In a case in which the processor 1602 determines not to process theapplication request,

the transceiver 1601 is further configured to send the applicationrequest to the core network device, so that the core network devicesends the application request to a service provider, so that the serviceprovider determines an application response according to the applicationrequest, where the application response is corresponding to theapplication service;

the transceiver 1601 is further configured to receive the applicationresponse sent by the core network device, where the application responseis received by the core network device from the service provider; and

the transceiver 1601 is further configured to send the applicationresponse to the one or more access network devices, so that the one ormore access network devices send the application response to the userequipment.

Optionally, in a case in which the application server 1600 is applied inthe system in FIG. 1e or FIG. 1 f, the transceiver 1601 may be furtherconnected to a second application server in the system through a fourthinterface.

In a case in which the processor 1602 determines not to process theapplication request,

the transceiver 1601 is further configured to send the applicationrequest to the second application server, so that the second applicationserver acquires the application response;

the transceiver 1601 is further configured to receive the applicationresponse sent by the second application server; and

the transceiver 1601 is further configured to send the applicationresponse to the one or more access network devices, so that the one ormore access network devices send the application response to the userequipment.

Optionally, in a case in which the application server 1600 is applied inthe system in FIG. 1 f, the transceiver 1601 is further connected to athird application server in the system through a sixth interface, wherethe third application server may be the same as the first applicationserver.

In a case in which the processor 1602 determines not to process theapplication request, the transceiver 1601 is further configured to sendthe application request to the third application server, so that thethird application server acquires the application response correspondingto the application request;

the transceiver 1601 is further configured to receive the applicationresponse sent by the third application server; and

the transceiver 1601 is further configured to send the applicationresponse to the one or more access network devices, so that the one ormore access network devices send the application response to the userequipment.

The transceiver 1601 is further configured to receive an applicationrequest sent by the third application server.

The processor 1602 is further configured to determine whether to processan application service corresponding to the application request;

the processor 1602 is further configured to: in a case in which theprocessor 1602 determines to process the application servicecorresponding to the application request, determine, according to theapplication request sent by the third application server, an applicationresponse corresponding to the application request. The transceiver 1601is further configured to send the application response to the thirdapplication server; and

the transceiver 1601 is further configured to send a negativenotification to the third application server in a case in which theprocessor 1602 determines not to process the application servicecorresponding to the application request, wherein the negativenotification is used for notifying the third application server that theapplication server 1600 does not process the application servicecorresponding to the application request.

Optionally, the processor 1602 determines guarantee informationaccording to the application response and a network environment;

the transceiver 1601 is further configured to send the guaranteeinformation to the one or more first access network devices, where theguarantee message is used for instructing the first access networkdevice to guarantee sending of the application response; and

the processor 1602 is further configured to determine to restore anetwork state in a case in which the transceiver completes sending ofthe guarantee message and the application response.

Optionally, in a case in which the application server 1600 is applied inthe system in FIG. 1 b, in a case in which the transceiver is connectedto one access network device in the system through the first interface,the one access network device is connected to a core network device inthe system through a third interface, and the processor determines notto process the application request, the transceiver 1601 is furtherconfigured to send a negative notification to the at least one firstaccess network device, for notifying the first access network devicethat the application server 1600 does not process the applicationservice corresponding to the application request.

Optionally, in a case in which the application server 1600 is applied inany one system in FIG. 1c to FIG. 1 f, the processor 1602 is furtherconfigured to perform General Packet Radio Service GPRS TunnelingProtocol-User plane GTP-U decapsulation on information received by thetransceiver 1601, and perform GTP-U encapsulation on information sent bythe transceiver 1601.

According to the application server 1600 shown in FIG. 16, theapplication server 1600 for providing content and application servicesis deployed on an RAN by connecting the application server to an accessnetwork device. Because the application server may acquire informationabout a wireless network environment, network sending scheduling may beadjusted according to the network environment, which guarantees sendingof service content and improves user experience. In addition, becausethe application server is deployed on the RAN side, resources from theRAN to a core network may be saved.

FIG. 17 is a schematic block diagram of an application server accordingto an embodiment of the present invention. The application server 1700shown in FIG. 17 may be a second application server in the system forproviding an application service in FIG. 1e or FIG. 1 f, and theapplication server 1700 may execute each step executed by a secondapplication server in FIG. 3 and FIG. 6. The application server 1700includes a transceiver 1701 and a processor 1702.

The transceiver 1701 is connected to a first application server in thesystem through a fourth interface, and the transceiver 1701 is connectedto a core network in the system through a fifth interface.

The transceiver 1701 is configured to receive an application requestsent by the first application server.

The processor 1702 is configured to determine whether to process anapplication service corresponding to the application request.

Optionally, the processor 1702 is further configured to determine anapplication response according to the application request in a case inwhich the processor 1702 determines to process the application request,where the application response is corresponding to the applicationservice; and the transceiver 1701 is further configured to send theapplication response to the first application server.

Optionally, in a case in which the processor 1702 determines not toprocess the application service corresponding to the applicationrequest, the transceiver 1701 is further configured to send theapplication request to the core network device, so that the core networkdevice sends the application request to a service provider, so that theservice provider determines an application response according to theapplication request, where the application response is corresponding tothe application service. The transceiver 1701 is further configured toreceive the application response sent by the core network device, wherethe application response is received by the core network device from theservice provider. The transceiver 1701 is further configured to send theapplication response to the first application server.

According to the application server 1700 shown in FIG. 17, theapplication server 1700 may provide an application service for a userequipment in a case in which a first application server is not capableof providing the application service for the user equipment. Therefore,a capability of processing an application request on an RAN side by theapplication server can be improved, and thereby workload of a corenetwork device may be reduced.

FIG. 18 is a schematic block diagram of an access network deviceaccording to an embodiment of the present invention. The access networkdevice 1800 shown in FIG. 18 may be a first access network device in anyone system in FIG. 1a to FIG. 1 f. The access network device 1800 mayalso be a second access network device in FIG. 1d or FIG. 1 f. Theaccess network device 1800 may execute each step executed by a firstaccess network device in FIG. 4 or FIG. 6. The access network device1800 includes a receiver 1801 and a transmitter 1802.

The receiver 1801 is connected to a first application server in thesystem through a first interface, and the transmitter 1802 is connectedto the first application server in the system through the firstinterface.

The receiver 1801 is configured to receive an application request sentby a user equipment.

The transmitter 1802 is configured to send the application request tothe first application server.

The receiver 1801 is further configured to receive an applicationresponse and guarantee information that are sent by the firstapplication server.

The transmitter 1802 is further configured to send the applicationresponse to the user equipment according to the guarantee information.

Optionally, in a case in which the access network device 1800 is appliedin the system in FIG. 1 c, the receiver 1801 is further connected to acore network device in the system through a third interface, and thetransmitter 1802 is further connected to the core network device throughthe third interface.

The transmitter 1802 is specifically configured to send the applicationrequest to the first application server according to an offload policy.

The transmitter 1802 is further configured to send the applicationrequest to the core network device according to the offload policy.

The receiver 1801 is further configured to receive a negativenotification sent by the first application server, where the negativenotification is used for notifying the first access network device thatthe application server is not capable of processing an applicationservice corresponding to the application request.

The transmitter 1802 is further configured to send the applicationrequest to the core network device in a case in which the receiver 1801receives the negative notification.

The receiver 1801 is further configured to receive an applicationresponse that is sent by the core network device.

The transmitter 1802 is further configured to send the applicationresponse to the user equipment.

Optionally, the access network device 1800 may be a base station or maybe a base station controller.

According to the access network device 1800 shown in FIG. 18, anapplication server for providing content and application services isdeployed on an RAN by connecting the application server to the accessnetwork device 1800. Because the application server may acquireinformation about a wireless network environment, network sendingscheduling may be adjusted according to the network environment, whichguarantees sending of service content and improves user experience. Inaddition, because the application server is deployed on the RAN,resources from the RAN to a core network may be saved.

FIG. 19 is a schematic block diagram of a core network device accordingto the present invention. The core network device 1900 shown in FIG. 19may be a core network device in any one system in FIG. 1b to FIG. 1 f,and the core network device 1900 may execute each step executed by acore network device in FIG. 5 or FIG. 6. The core device device 1900includes a receiver 1901 and a transmitter 1902.

The receiver 1901 is configured to receive an application request, wherethe application request is sent by a user equipment and used forrequesting an application service.

The transmitter 1902 is configured to send the application request to aservice provider, so that the service provider determines an applicationresponse according to the application request, where the applicationresponse is corresponding to the application service.

The receiver 1901 is further configured to receive the applicationresponse sent by the service provider.

Optionally, in a case in which the core network device 1900 is appliedin the system shown in FIG. 1 c, in a case in which the receiver 1901 isconnected, through a second interface, to a first application server inthe system for providing an application service, and the transmitter1902 is connected to the first application server through the secondinterface, the receiver 1901 is specifically configured to receive theapplication request sent by the first application server, and thetransmitter 1902 is further configured to send the application responseto the first application server.

Optionally, in a case in which the core network device 1900 is appliedin the system shown in FIG. 1e or FIG. 1 f, in a case in which thereceiver 1901 is connected, through a fifth interface, to a secondapplication server in the system for providing an application service,and the transmitter 1902 is connected to the second application serverthrough the fifth interface, the receiver 1901 is specificallyconfigured to receive the application request sent by the secondapplication server, and the transmitter 1902 is further configured tosend the application response to the second application server.

Optionally, in a case in which the core network device 1900 is appliedin the system shown in FIG. 1 b, in a case in which the receiver 1901 isconnected, through a third interface, to a first access network devicein the system for providing an application service, and the transmitter1902 is connected to the first access network device through the thirdinterface, the receiver 1901 is specifically configured to receive theapplication request sent by the first access network device, and thetransmitter 1902 is further configured to send the application responseto the first access network device.

According to the core network device 1900 shown in FIG. 19, anapplication server for providing content and application services isdeployed on an RAN by connecting the application server to an accessnetwork device. Because the application server may acquire informationabout a wireless network environment, network sending scheduling may beadjusted according to the network environment, which guarantees sendingof service content and improves user experience. In addition, becausethe application server is deployed on the RAN, resources from the RAN toa core network may be saved. However, in a case in which the applicationserver does not provide an application service, the core network device1900 may send an application request to an Internet service provider, sothat the service provider provides an application or content service,and forward the application or content service provided by the serviceprovider, to a user equipment.

The application server 1600 shown in FIG. 16 may further execute eachstep executed by a first application server in FIG. 7 to FIG. 10, FIG.14, or FIG. 15.

The transceiver 1601 is configured to receive an application requestsent by the first access network device, where the application requestis received by the first access network device from a user equipment,and the application request is corresponding to an application service.

The processor 1602 is configured to acquire an application response,where the application response is corresponding to the applicationservice.

The processor 1602 is further configured to control a charging orinterception process.

Optionally, that the processor 1602 is further configured to control acharging or interception process includes that: the processor 1602 isspecifically configured to send a copy of the application request to acore network device in the system through the transceiver, to instructthe core network device to start performing charging or interception.The processor 1602 is specifically configured to send a copy of theapplication response to the core network device through the transceiver,to instruct the core network device to perform charging or interception.

Optionally, the transceiver 1601 is further configured to receive acharging or interception notification sent by the core network device,where the charging or interception notification is used for indicatingcharging or interception.

Optionally, that the processor 1602 is configured to control a chargingor interception process includes that: the processor 1602 is configuredto determine whether to perform charging or interception according tothe charging or interception notification. The processor 1602 is furtherconfigured to: in a case in which the processor 1602 determines toperform interception, skip processing the application servicecorresponding to the application request, and send the applicationrequest to the core network device in the system through the transceiver1601, to instruct the core network to start charging or interception.The processor 1602 is further configured to: in a case in which theprocessor 1602 determines not to perform interception, process theapplication service corresponding to the application request, performcharging, and send charging information to the core network devicethrough the transceiver 1601, for notifying the core network device of acharging result.

Optionally, that the processor 1602 is configured to control a chargingor interception process includes that: the processor 1602 is configuredto perform charging, and send charging information to the core networkdevice through the transceiver 1601, for notifying the core networkdevice of a charging result. The processor 1602 is further configured todetermine, according to the charging or interception notification,whether to perform charging or interception. The processor 1602 isfurther configured to: in a case in which the processor 1602 determinesto perform interception, send a copy of the application request and acopy of the application response to the core network device through thetransceiver 1601, to instruct the core network device to performinterception.

According to the application server 1600 shown in FIG. 16, theapplication server 1600 for providing content and application servicesis deployed on an RAN by connecting the application server to an accessnetwork device. Because the application server may acquire informationabout a wireless network environment, network sending scheduling may beadjusted according to the network environment, which guarantees sendingof service content and improves user experience. In addition, becausethe application server is deployed on the RAN side, resources from theRAN to a core network may be saved. In addition, the application servermay further provide a charging or interception service. Therefore, in acase in which the application server 1600 may process an applicationrequest, charging and interception of an application service are alsodeployed on the RAN side, and the application server 1600 controls acharging or interception process, which may reduce burden of the corenetwork.

FIG. 20 is a schematic block diagram of a core network device accordingto the present invention. The core network device 2000 shown in FIG. 20may be a core network device in any one system in FIG. 1c to FIG. 1 f,and the core network device 2000 may execute each step executed by acore network device in FIG. 11. The core network device 2000 includes areceiver 2001 and a processor 2002.

The receiver 2001 is configured to receive one or more pieces of thefollowing information sent by a first application server in the system:charging information, an application request, a copy of the applicationrequest, and a copy of an application response.

The processor 2002 is configured to perform charging or interception.

The processor 2002 is specifically configured to perform interception ina case in which the receiver 2001 receives the application request.

The processor 2002 is specifically configured to perform interception ina case in which the receiver 2001 receives the copy of the applicationrequest and the copy of the application response.

The processor 2002 is specifically configured to perform charging orinterception in a case in which the receiver 2001 receives the copy ofthe application request or the copy of the application response.

Optionally, the core network device 2000 further includes a transmitter2003, where the transmitter 2003 is configured to send a charging orinterception notification to the first application server, so that thefirst application server determines, according to the charging orinterception notification, whether to perform charging or interception.

According to the core network device shown in FIG. 20, an applicationserver for providing content and application services is deployed on anRAN by connecting the application server to an access network device.Because the application server may acquire information about a wirelessnetwork environment, network sending scheduling may be adjustedaccording to the network environment, which guarantees sending ofservice content and improves user experience. In addition, because theapplication server is deployed on the RAN side, resources from the RANto a core network may be saved. In addition, in a case in which theapplication server may process an application request, charging andinterception of an application service are also deployed on the RANside, and the application server on the RAN side controls a charging orinterception process, which may reduce burden of the core network.

FIG. 21 is a schematic block diagram of an access network deviceaccording to the present invention. The access network device 2100 shownin FIG. 21 may be a first access network device in any one system inFIG. 1c to FIG. 1 f, and the access network device 2100 may execute eachstep executed by a first access network device in FIG. 12, FIG. 14, orFIG. 15. The access network device 2100 includes a receiver 2101, aprocessor 2102, and a transmitter 2103.

The receiver 2101 is connected to a first application server through afirst interface.

The receiver 2101 is configured to receive a local application enableflag sent by a core network device in the system.

The processor 2102 is configured to determine, according to the localapplication enable flag, whether to allow a local application to performcharging or interception.

In a case in which the processor 2102 determines to allow using thelocal application to perform charging or interception, the transmitter2103 is configured to send uplink data of a user equipment to the firstapplication server in a case in which the processor 2102 determines toallow using the local application, the processor 2102 is furtherconfigured to collect charging information of the user equipmentperiodically, and the transmitter 2103 is further configured to send thecharging information to the core network device.

In a case in which the processor 2102 determines not to allow the localapplication to perform charging or interception, the transmitter 2103 isfurther configured to send the uplink data of the user equipment to thecore network device, or the transmitter 2103 is further configured tosend the uplink data of the user equipment to the first applicationserver and send a copy of data of the user equipment to the core networkdevice, where the copy of the data of the user equipment includes a copyof the uplink data (for example, includes an application request) and acopy of downlink data (for example, includes an application response) ofthe user equipment.

According to the access network device 2100 shown in FIG. 21, anapplication server for providing content and application services isdeployed on an RAN by connecting the application server to the accessnetwork device 2100. Because the application server may acquireinformation about a wireless network environment, network sendingscheduling may be adjusted according to the network environment, whichguarantees sending of service content and improves user experience. Inaddition, because the application server is deployed on the RAN side,resources from the RAN to a core network may be saved. In addition, in acase in which the application server may process an application request,charging and interception of an application service are also deployed onthe RAN side, and the access network device 2100 on the RAN sidecontrols a charging or interception process, which may reduce burden ofthe core network.

FIG. 22 is a schematic block diagram of a core network device accordingto the present invention. The core network device 2200 shown in FIG. 22may be a core network device in any one system in FIG. 1c to FIG. 1 f,and the core network device 2200 may execute each step executed by acore network device in FIG. 13 to FIG. 15. The core network device 2200includes a receiver 2201 and a transmitter 2202.

The transmitter 2202 is configured to send a local application enableflag to a first access network device in the system, so that the firstaccess network device determines, according to the local applicationenable flag, whether to perform charging or interception.

The receiver 2201 is configured to receive charging information sent bythe first access network device; or

the receiver 2201 is configured to receive uplink data of a userequipment or a copy of data of the user equipment sent by the firstaccess network device, where the copy of the data of the user equipmentincludes a copy of the uplink data (for example, includes an applicationrequest) and a copy of downlink data (for example, includes anapplication response) of the user equipment.

According to the core network device shown in FIG. 22, an applicationserver for providing content and application services is deployed on anRAN by connecting the application server to an access network device.Because the application server may acquire information about a wirelessnetwork environment, network sending scheduling may be adjustedaccording to the network environment, which guarantees sending ofservice content and improves user experience. In addition, because theapplication server is deployed on the RAN side, resources from the RANto a core network may be saved. In addition, in a case in which theapplication server may process an application request, charging andinterception of an application service are also deployed on the RANside, and the access network device on the RAN side controls a chargingor interception process, which may reduce burden of the core network.

An embodiment of the present invention provides an application server,where the application server is a first application server in a systemfor providing an application service and includes:

a communication unit and a control unit, where:

the communication unit is connected to one or more first access networkdevices in the system through a first interface;

the communication unit is configured to receive an application requestsent by the one or more first access network devices, where theapplication request is received by the one or more first access networkdevices from a user equipment;

the control unit is configured to determine whether to process anapplication service corresponding to the application request;

the control unit is further configured to determine an applicationresponse according to the application request in a case in which thecontrol unit determines to process the application service correspondingto the application request, where the application response iscorresponding to the application service; and

the communication unit is further configured to send the applicationresponse determined by the control unit to the one or more accessnetwork devices, so that the one or more access network devices send theapplication response to the user equipment.

The communication unit may be further connected to a core network devicein the system through a second interface;

in a case in which the control unit determines not to process theapplication request,

the communication unit is further configured to send the applicationrequest to the core network device, so that the core network devicesends the application request to a service provider, so that the serviceprovider determines an application response according to the applicationrequest, where the application response is corresponding to theapplication service;

the communication unit is further configured to receive the applicationresponse sent by the core network device, where the application responseis received by the core network device from the service provider; and

the communication unit is further configured to send the applicationresponse to the one or more access network devices, so that the one ormore access network devices send the application response to the userequipment.

The communication unit may be further connected to a second applicationserver in the system through a fourth interface;

in a case in which the control unit determines not to process theapplication request,

the communication unit is further configured to send the applicationrequest to the second application server, so that the second applicationserver acquires the application response;

the communication unit is further configured to receive the applicationresponse sent by the second application server; and

the communication unit is further configured to send the applicationresponse to the one or more access network devices, so that the one ormore access network devices send the application response to the userequipment.

The communication unit may be further connected to a third applicationserver in the system through a sixth interface;

in a case in which the control unit determines not to process theapplication request,

the communication unit is further configured to send the applicationrequest to the second application server, so that the second applicationserver acquires the application response;

the communication unit is further configured to receive the applicationresponse sent by the second application server; and

the communication unit is further configured to send the applicationresponse to the one or more access network devices, so that the one ormore access network devices send the application response to the userequipment.

The communication unit is further configured to receive an applicationrequest sent by the third application server;

the control unit is further configured to determine whether to processthe application request sent by the third application server;

the control unit is further configured to: in a case in which thecontrol unit determines to process the application request sent by thethird application server, determine, according to the applicationrequest sent by the third application server, an application responsecorresponding to the application request sent by the third applicationserver;

the communication unit is further configured to send, to the thirdapplication server, the application response corresponding to theapplication request sent by the third application server;

the communication unit is further configured to send a negativenotification to the third application server in a case in which thecontrol unit determines not to process the application request sent bythe third application server, wherein the negative notification is usedfor notifying the third application server that the control unitdetermines not to process the application request sent by the thirdapplication server.

The control unit is further configured to determine guaranteeinformation according to the application response and a networkenvironment;

the communication unit is further configured to send the guaranteeinformation to the one or more first access network devices, where theguarantee message is used for instructing the first access networkdevice to guarantee sending of the application response; and

the control unit is further configured to determine to restore a networkstate in a case in which the communication unit completes sending of theguarantee message and the application response.

In a case in which the communication unit is connected to one accessnetwork device in the system through the first interface, the one accessnetwork device is connected to the core network device in the systemthrough a third interface, and the control unit determines not toprocess the application request, the communication unit is furtherconfigured to send a negative notification to the at least one firstaccess network device, for notifying the first access network devicethat the application server is not capable of processing the applicationservice corresponding to the application request.

The control unit is further configured to perform GPRS TunnelingProtocol-User plane GTP-U decapsulation on information received by thecommunication unit, and perform GTP-U encapsulation on information sentby the communication unit.

An embodiment of the present invention provides an application server,where the application server is each second application server in asystem for providing an application service and includes:

a communication unit and a control unit, where:

the communication unit is connected to a first application server in thesystem through a fourth interface, and the communication unit isconnected to a core network in the system through a fifth interface;

the communication unit is configured to receive an application requestsent by the first application server;

the control unit is configured to determine whether to process anapplication service corresponding to the application request;

the control unit is further configured to determine an applicationresponse according to the application request in a case in which thecontrol unit determines to process the application request, where theapplication response is corresponding to the application service; and

the communication unit is further configured to send the applicationresponse to the first application server.

In a case in which the control unit determines not to process theapplication service corresponding to the application request,

the communication unit is further configured to send the applicationrequest to the core network device, so that the core network devicesends the application request to a service provider, so that the serviceprovider determines an application response according to the applicationrequest, where the application response is corresponding to theapplication service;

the communication unit is further configured to receive the applicationresponse sent by the core network device, where the application responseis received by the core network device from the service provider; and

the communication unit is further configured to send the applicationresponse to the first application server.

An embodiment of the present invention provides an access networkdevice, where the access network device is a first access network devicein a system for providing an application service and includes:

a receiving unit and a sending unit, where:

the receiving unit is connected to a first application server in thesystem through a first interface, and the sending unit is connected tothe first application server in the system through the first interface;

the receiving unit is configured to receive an application request sentby a user equipment; and

the sending unit is configured to send the application request to thefirst application server.

The receiving unit may be further connected to a core network device inthe system through a third interface, and the sending unit may befurther connected to the core network device through the thirdinterface;

the sending unit is specifically configured to send the applicationrequest to the first application server according to an offload policy;

the sending unit is further configured to send the application requestto the core network device according to the offload policy;

The receiving unit is further configured to receive a negativenotification sent by the first application server, where the negativenotification is used for notifying the first access network device thatthe application server is not capable of processing an applicationservice corresponding to the application request;

the sending unit is further configured to send the application requestto the core network device in a case in which the receiving unitreceives the negative notification.

The receiving unit is further configured to receive an applicationresponse and guarantee information that are sent by the firstapplication server;

the sending unit is further configured to send the application responseto the user equipment according to the guarantee information;

the receiving unit is further configured to receive an applicationresponse sent by the core network device;

the sending unit is further configured to send the application responseto the user equipment.

An embodiment of the present invention provides a core network device,where the core network device is a core network device in a system forproviding an application service and includes:

a receiving unit and a sending unit, where:

the receiving unit is configured to receive an application request,where the application request is corresponding to an applicationservice;

the sending unit is configured to send the application request to aservice provider, so that the service provider determines an applicationresponse according to the application request, where the applicationresponse is corresponding to the application service; and

the receiving unit is further configured to receive the applicationresponse sent by the service provider.

In a case in which the receiving unit is connected, through a secondinterface, to a first application server in the system for providing anapplication service, and the sending unit is connected to the firstapplication server through the second interface, the receiving unit isspecifically configured to receive the application request sent by thefirst application server, and the sending unit is further configured tosend the application response to the first application server;

in a case in which the receiving unit is connected, through a fifthinterface, to a second application server in the system for providing anapplication service, and the sending unit is connected to the secondapplication server through the fifth interface, the receiving unit isspecifically configured to receive the application request sent by thesecond application server, and the sending unit is further configured tosend the application response to the second application server;

in a case in which the receiving unit is connected, through a thirdinterface, to a first access network device in the system for providingan application service, and the sending unit is connected to the firstaccess network device through the third interface, the receiving unit isspecifically configured to receive the application request sent by thefirst access network device, and the sending unit is further configuredto send the application response to the first access network device.

An embodiment of the present invention provides an application server,where the application server is a first application server in a systemfor providing an application service and includes:

a communication unit and a control unit, where:

the communication unit is configured to receive an application requestsent by a first access network device, where the application request isreceived by the first access network device from a user equipment, andthe application request is corresponding to an application service;

the control unit is configured to acquire an application response, wherethe application response is corresponding to the application service;and

the control unit is further configured to control a charging orinterception process.

That the control unit is configured to control a charging orinterception process includes that:

the control unit is specifically configured to send a copy of theapplication request to a core network device in the system through thecommunication unit, to instruct the core network device to startperforming charging or interception; and

the control unit is specifically configured to send a copy of theapplication response to the core network device through thecommunication unit, to instruct the core network device to performcharging or interception.

The communication unit is further configured to receive a charging orinterception notification sent by the core network device, where thecharging or interception notification is used for indicating charging orinterception.

That the control unit is configured to control a charging orinterception process includes that:

the control unit is configured to determine, according to the chargingor interception notification, whether to perform charging orinterception;

the control unit is further configured to: in a case in which thecontrol unit determines to perform interception, skip processing theapplication service corresponding to the application request, and sendthe application request to the core network device in the system throughthe communication unit, to instruct the core network to start chargingor interception; and

the control unit is further configured to: in a case in which thecontrol unit determines not to perform interception, process theapplication service corresponding to the application request, performcharging, and send charging information to the core network devicethrough the communication unit, for notifying the core network device ofa charging result.

That the control unit is configured to control a charging orinterception process includes that:

the control unit is configured to perform charging, and send charginginformation to the core network device through the communication unit,for notifying the core network device of a charging result;

the control unit is further configured to determine, according to thecharging or interception notification, whether to perform charging orinterception; and

the control unit is further configured to: in a case in which thecontrol unit determines to perform interception, send a copy of theapplication request and a copy of the application response to the corenetwork device through the communication unit, to instruct the corenetwork device to perform interception.

An embodiment of the present invention provides a core network device,where the core network device is a core network device in a system forproviding an application service and includes:

a receiving unit and a control unit, where:

the receiving unit is configured to receive one or more pieces of thefollowing information sent by a first application server in the system:charging information, an application request, a copy of the applicationrequest, and a copy of an application response; and

the control unit is configured to perform charging or interception.

The control unit is specifically configured to perform interception in acase in which the receiving unit receives the application request;

the control unit is specifically configured to perform interception in acase in which the receiving unit receives the copy of the applicationrequest and the copy of the application response;

the control unit is specifically configured to perform charging orinterception in a case in which the receiving unit receives the copy ofthe application request or the copy of the application response.

The core network device further includes a sending unit, where thesending unit is configured to send a charging or interceptionnotification to the first application server, so that the firstapplication server determines, according to the charging or interceptionnotification, whether to perform charging or interception.

An embodiment of the present invention provides an access networkdevice, where the access network device is a first access network devicein a system for providing an application service and includes:

a receiving unit, a control unit, and a sending unit, where:

the receiving unit is connected to a first application server through afirst interface, and the sending unit is connected to the firstapplication server through the first interface;

the receiving unit is configured to receive a local application enableflag sent by a core network device in the system;

the control unit is configured to determine, according to the localapplication enable flag, whether to allow a local application to performcharging or interception; and

in a case in which the control unit determines to allow using the localapplication to perform charging or interception, the sending unit isconfigured to send uplink data of a user equipment to the firstapplication server in a case in which the control unit determines toallow using the local application, the control unit is furtherconfigured to collect charging information of the user equipmentperiodically, and the sending unit is further configured to send thecharging information to the core network device; or

in a case in which the control unit determines not to allow the localapplication to perform charging or interception, the sending unit isconfigured to send the uplink data of the user equipment to the corenetwork device, or the sending unit is further configured to send theuplink data of the user equipment to the first application server andsend a copy of data of the user equipment to the core network device,where the copy of the data of the user equipment includes a copy of theuplink data (for example, includes an application request) and a copy ofdownlink data (for example, includes an application response) of theuser equipment.

An embodiment of the present invention provides a core network device,where the core network device is a core network device in a system forproviding an application service and includes:

a receiving unit and a sending unit, where:

the sending unit is configured to send a local application enable flagto a first access network device in the system, so that the first accessnetwork device determines, according to the local application enableflag, whether to perform charging or interception; and

the receiving unit is configured to receive charging information sent bythe first access network device; or

the receiving unit is configured to receive uplink data of a userequipment or a copy of data of the user equipment sent by the firstaccess network device, where the copy of the data of the user equipmentincludes a copy of the uplink data (for example, includes an applicationrequest) and a copy of downlink data (for example, includes anapplication response) of the user equipment.

A person of ordinary skill in the art may be aware that, in combinationwith the examples described in the embodiments disclosed in thisspecification, units and algorithm steps may be implemented byelectronic hardware or a combination of computer software and electronichardware. Whether the functions are performed by hardware or softwaredepends on particular applications and design constraint conditions ofthe technical solutions. A person skilled in the art may use differentmethods to implement the described functions for each particularapplication, but it should not be considered that the implementationgoes beyond the scope of the present invention.

It may be clearly understood by a person skilled in the art that, forthe purpose of convenient and brief description, for a detailed workingprocess of the foregoing system, apparatus, and unit, reference may bemade to a corresponding process in the foregoing method embodiments, anddetails are not described herein again.

In the several embodiments provided in the present application, itshould be understood that the disclosed system, apparatus, and methodmay be implemented in other manners. For example, the describedapparatus embodiment is merely exemplary. For example, the unit divisionis merely logical function division and may be other division in actualimplementation. For example, a plurality of units or components may becombined or integrated into another system, or some features may beignored or not performed. In addition, the displayed or discussed mutualcouplings or direct couplings or communication connections may beimplemented through some interfaces. The indirect couplings orcommunication connections between the apparatuses or units may beimplemented in electronic, mechanical, or other forms.

The units described as separate parts may or may not be physicallyseparate, and parts displayed as units may or may not be physical units,may be located in one position, or may be distributed on a plurality ofnetwork units. Some or all of the units may be selected according toactual needs to achieve the objectives of the solutions of theembodiments.

In addition, functional units in the embodiments of the presentinvention may be integrated into one processing unit, or each of theunits may exist alone physically, or two or more units are integratedinto one unit.

When the functions are implemented in the form of a software functionalunit and sold or used as an independent product, the functions may bestored in a computer-readable storage medium. Based on such anunderstanding, the technical solutions of the present inventionessentially, or the part contributing to the prior art, or some of thetechnical solutions may be implemented in a form of a software product.The software product is stored in a storage medium and includes severalinstructions for instructing a computer device (which may be a personalcomputer, a server, or a network device) or a processor to perform allor some of the steps of the methods described in the embodiments of thepresent invention. The foregoing storage medium includes: any mediumthat can store program code, such as a USB flash drive, a removable harddisk, a read-only memory (ROM, Read-Only Memory), a random access memory(RAM, Random Access Memory), a magnetic disk, or an optical disc.

The foregoing descriptions are merely specific embodiments of thepresent invention, but are not intended to limit the protection scope ofthe present invention. Any variation or replacement readily figured outby a person skilled in the art within the technical scope disclosed inthe present invention shall fall within the protection scope of thepresent invention. Therefore, the protection scope of the presentinvention shall be subject to the protection scope of the claims.

What is claimed is:
 1. A system for providing an application service,the system comprising: a first access network device, a core networkdevice and a first application server, wherein: the first access networkdevice is a base station or a base station controller; a first interfaceexists between the first access network device and the first applicationserver; a second interface exists between the first application serverand the core network device; a third interface exists between the firstaccess network device and the core network device; the first applicationserver is configured to receive, through the first interface, a firstapplication request and a second application request sent by the firstaccess network device, wherein the two application requests are receivedby the first access network device from a user equipment; wherein in acase in which the first application server is further configured todetermine to process an application service corresponding to the firstapplication request, the first application server is configured todetermine a first application response according to the firstapplication request, wherein the first application response iscorresponding to the application service; and wherein in a case in whichthe first application server is further configured to determine not toprocess the application service corresponding to the second applicationrequest, the first application server is further configured to send thesecond application request to the core network device to process it. 2.The system according to claim 1, further comprising: a second accessnetwork device; and a first interface exists between the firstapplication server and the second access network device.
 3. The systemaccording to claim 1, wherein: the first access network device isfurther configured to determine, according to an offload policy, atarget device to which the two application requests are to be sent,wherein the target device is the first application server.
 4. The systemaccording to claim 1, further comprising: a second application server; afourth interface exists between the first application server and thesecond application server; and a fifth interface exists between thesecond application server and the core network device.
 5. The systemaccording to claim 4, further comprising: a second access network deviceand a third application server; and a sixth interface exists between thefirst application server and the third application server, a firstinterface exists between the third application server and the secondaccess network device, and a fourth interface exists between the thirdapplication server and the second application server.
 6. The systemaccording to claim 1, wherein the core network device is configured to:send the second application request to a service provider fordetermining an application response according to the second applicationrequest; and receive the second application response sent by the serviceprovider, and send the second application response to the firstapplication server.
 7. The system according to claim 1, wherein the corenetwork device is configured to: send the second application request toa service provider to enable the service provider to determine a secondapplication response according to the second application request,wherein the second application response is corresponding to theapplication service; receive the second application response sent by theservice provider; and send the second application response to the firstapplication server.
 8. The system according to claim 1, wherein: thefirst application server is further configured to: determine a guaranteemessage according to the application response and a network environmentfor instructing the first access network device to guarantee sending ofthe application response, and send the application response and theguarantee message to the first access network device; and the firstaccess network device is configured to send the application response tothe user equipment according to the guarantee message; and a networkstate is restored in a case in which the first application server andthe first access network device complete sending of the applicationresponse.
 9. The system according to claim 1, wherein: when the firstapplication server is connected to the core network device, the firstapplication server is further configured to perform General Packet RadioService GPRS Tunneling Protocol-User plane (GTP-U) decapsulation onreceived information to process the received information, wherein thereceived information comprises the application request; and the firstapplication server is further configured to perform GTP-U encapsulationon sent information to transmit the sent information in a transmissionmedium, wherein the sent information comprises one or more pieces of thefollowing information: the application request, the applicationresponse, and the guarantee message.
 10. The system according to claim1, wherein the first application server is further configured to performcharging or interception.
 11. An application server, comprising: atransceiver configured to: receive a first application request and asecond application request sent by a first access network device,wherein the two application requests are received by the first accessnetwork device from a user equipment; and a processor configured to:determine whether to process a first application service correspondingto the first application request and determine whether to process asecond application service corresponding to the second applicationrequest, when it is determined to process the application servicecorresponding to the first application request, determine a firstapplication response according to the first application request, andwhen it is determined not to process the application servicecorresponding to the second application request, send the secondapplication request to a core network device for processing.